quassel-data 0.8.0-0ubuntu1 / usr / share / kde4 / apps / quassel / scripts / inxi

#!/bin/bash
########################################################################
####  Script Name: inxi
####  version: 1.4.15
####  Date: September 16 2010
########################################################################
####  SPECIAL THANKS
########################################################################
####  Special thanks to all those in #lsc and #smxi for their tireless 
####  dedication helping test inxi modules.
########################################################################
####  ABOUT INXI
########################################################################
####  inxi is a fork of infobash 3.02, the original bash sys info script by locsmif
####  As time permits functionality improvements and recoding will occur.
####
####  inxi, the universal, portable, system info script for irc.
####  Tested with Irssi, Xchat, Konversation, BitchX, KSirc, ircII,
####  Gaim/Pidgin, Weechat, KVIrc and Kopete.
####  Original infobash author and copyright holder:
####  Copyright (C) 2005-2007  Michiel de Boer a.k.a. locsmif
####  inxi version: Copyright (C) 2008-10 Scott Rogers & Harald Hope
####  Further fixes (listed as known): Horst Tritremmel <hjt at sidux.com>
####  Steven Barrett (aka: damentz) - usb audio patch; swap percent used patch
####
####  Current script home page: http://techpatterns.com/forums/about1131.html
####  Script svn: http://code.google.com/p/inxi
####
####  This program is free software; you can redistribute it and/or modify
####  it under the terms of the GNU General Public License as published by
####  the Free Software Foundation; either version 3 of the License, or
####  (at your option) any later version.
####
####  This program is distributed in the hope that it will be useful,
####  but WITHOUT ANY WARRANTY; without even the implied warranty of
####  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
####  GNU General Public License for more details.
####
####  You should have received a copy of the GNU General Public License
####  along with this program.  If not, see <http://www.gnu.org/licenses/>.
####
####  If you don't understand what Free Software is, please read (or reread)
####  this page: http://www.gnu.org/philosophy/free-sw.html
########################################################################
####  Package names in (...) are the Debian Squeeze package name. Check your 
####  distro for proper package name by doing this: which <application> 
####  then find what package owns that application file.
####  DEPENDENCIES
####  bash >=3.0 (bash); df, readlink, stty, tr, uname, wc (coreutils);
####  gawk (gawk); grep (grep); hostname (hostname); lspci (pciutils);
####  free, ps, uptime (procps); 
####  Also the proc filesystem should be present and mounted
####
####	Apparently unpatched bash 3.0 has arrays broken; bug reports:
####	http://ftp.gnu.org/gnu/bash/bash-3.0-patches/bash30-008
####	http://lists.gnu.org/archive/html/bug-bash/2004-08/msg00144.html
####  Bash 3.1 for proper array use
####
####	Arrays work in bash 2.05b, but "egrep -m" does not
####
####  RECOMMENDS (Needed to run certain features, listed by option)
####  -A - for output of usb audio information: lsusb (usbutils)
####  -Ax - for audio module version: modinfo (module-init-tools)
####  -Dx - for hdd temp output (root only default): hddtemp (hddtemp)
####       For user level hdd temp output: sudo (sudo)
####       Note: requires user action for this feature to run as user (edit /etc/sudoers file)
####  -G - full graphics output requires:  glxinfo (mesa-utils); xdpyinfo (X11-utils);
####       xrandr (x11-xserver-utils)
####  -i - IP information, local/wan - ifconfig (net-tools)
####  -Ix - view current runlevel while not in X window system (or with -x): runlevel (sysvinit)
####  -o - for unmounted file system information in unmounted drives (root only default): file (file)
####       Note: requires user action for this feature to run as user (edit /etc/sudoers file)
####       For user level unmounted file system type output: sudo (sudo)
####  -s   For any sensors output, fan, temp, etc: sensors (lm-sensors)
####       Note: requires setup of lm-sensors (sensors-detect and adding modules/modprobe/reboot,
####       and ideally, pwmconfig) prior to full output being available. 
########################################################################
####  CONVENTIONS:
####  Indentation: TABS
####  Do not use `....` (back quotes), those are totally non-reabable, use $(....).
####  Do not use one liner flow controls. 
####  The ONLY time you should use ';' (semi-colon) is in this single case: if [[ condition ]];then.
####  Never use compound 'if': ie, if [[ condition ]] && statement.
####  Note: [[ -n $something ]] - double brackets does not require quotes for variables: ie, "$something".
####  Always use quotes, double or single, for all string values.
####
####  All new code/methods must be in a function.
####  For all boolean tests, use 'true' / 'false'.
####  !! Do NOT use 0 or 1 unless it's a function return. 
####  Avoid complicated tests in the if condition itself.
####  To 'return' a value in a function, use 'echo <var>'.
####
####  For gawk: use always if ( num_of_cores > 1 ) { hanging { starter for all blocks
####  This lets us use one method for all gawk structures, including BEGIN/END, if, for, etc
####
####  VARIABLE/FUNCTION NAMING:
####  All functions should follow standard naming--verb adjective noun. 
####	ie, get_cpu_data
####  All variables MUST be initialized / declared explicitly.
####  All variables should clearly explain what they are, except counters like i, j.
####  Each word of variable must be separated by '_' (underscore) (camel form).
####  Global variables are 'UPPER CASE', at top of script.
####	ie, SOME_VARIABLE=''
####  Local variables are 'lower case' and declared at the top of the function.
####	ie, some_variable=''
####  Locals that will be inherited by child functions have first char capitalized (so you know they are inherited).
####	ie, Some_Variable 
####
####  Booleans should start with b_ (local) or B_ (global) and state clearly what is being tested.
####  Arrays should start with a_ (local) or A_ (global).
####
####  SPECIAL NOTES:
####  The color variable ${C2} must always be followed by a space unless you know what
####  character is going to be next for certain. Otherwise irc color codes can be accidentally
####  activated or altered.
####
####  For native script konversation support (check distro for correct konvi scripts path):
####  ln -s <path to inxi> /usr/share/apps/konversation/scripts/inxi
####  DCOP doesn't like \n, so avoid using it for most output unless required, as in error messages.
####
####  As with all 'rules' there are acceptions, these are noted where used.
####
###################################################################################
####	KDE Konversation information.  Moving from dcop(qt3/KDE3) to dbus(qt4/KDE4)
###################################################################################
####	dcop and dbus	-- these talk back to Konversation from this script
####	
####	Scripting info	-- http://konversation.berlios.de/docs/scripting.html
####			-- http://www.kde.org.uk/apps/konversation/
####
####	dbus info	-- http://dbus.freedesktop.org/doc/dbus-tutorial.html
####	view dbus info	-- https://fedorahosted.org/d-feet/
####			-- or run qdbus
####	Konvi dbus/usage-- qdbus org.kde.konversation /irc say <server> <target-channel> <output>
####
####	Python usage	-- http://wiki.python.org/moin/DbusExamples  (just in case)
####
####	Because webpages come and go, the above information needs to be moved to inxi's wiki
####	
########################################################################
####  Valuable Resources
####  gawk arrays: http://www.math.utah.edu/docs/info/gawk_12.html
########################################################################
####  TESTING FLAGS
####  inxi supports advanced testing triggers to do various things, using -! <arg>
####  -! 1  - triggers default B_TESTING_1='true' to trigger some test or other
####  -! 2  - triggers default B_TESTING_2='true' to trigger some test or other
####  -! 3  - triggers B_TESTING_1='true' and B_TESTING_2='true'
####  -! 10 - triggers an update from the primary dev download server instead of svn
####  -! 11 - triggers an update from svn branch one - if present, of course
####  -! 12 - triggers an update from svn branch two - if present, of course
####  -! 13 - triggers an update from svn branch three - if present, of course
####  -! 14 - triggers an update from svn branch four - if present, of course
####  -! <http://......> - Triggers an update from whatever server you list.
#### LOG FLAGS (logs to $HOME/.inxi/inxi.log with rotate 3 total)
####  -@ 8  - Basic data logging of generated data / array values
####  -@ 9  - Full logging of all data used, including cat of files and system data
####  -@ 10 - Basic data logging plus color code logging
########################################################################
#### VARIABLES
########################################################################

## NOTE: we can use hwinfo if it's available in all systems, or most, to get
## a lot more data and verbosity levels going
# set to default LANG to avoid locales errors with , or .
LANG=C
### Variable initializations: null values
CMDL_MAX=''
COLOR_SCHEME=''
COLOR_SCHEME_SET=''
# override in user config if desired, seems like less than .3 doesn't work as reliably
CPU_SLEEP='0.3' 
DEV_DISK_LABEL=''
DEV_DISK_UUID=''
IRC_CLIENT=''
IRC_CLIENT_VERSION=''
PS_COUNT=5
PS_THROTTLED=''
REPO_DATA=''
REPO_FILE_ID=''

### primary data array holders	## usage: 'A_<var>'
A_AUDIO_DATA=''
A_CMDL=''
A_CPU_CORE_DATA=''
A_CPU_DATA=''
A_CPU_TYPE_PCNT_CCNT=''
A_DEBUG_BUFFER=''
A_GFX_CARD_DATA=''
A_GLX_DATA=''
A_HDD_DATA=''
A_INTERFACES_DATA=''
A_NETWORK_DATA=''
A_PARTITION_DATA=''
A_PS_DATA=''
A_SENSORS_DATA=''
A_UNMOUNTED_PARTITION_DATA=''
A_X_DATA=''

### Boolean true/false globals	## usage: 'B_<var>'
# flag to allow distro maintainers to turn off update features. If false, turns off
# -U and -! testing/advanced update options, as well as removing the -U help menu item
B_ALLOW_UPDATE='true'
# triggers full display of cpu flags
B_CPU_FLAGS_FULL='false'
# test for dbus irc client
B_DBUS_CLIENT='false'
# kde dcop
B_DCOP='false'
# Debug flood override: make 'true' to allow long debug output
B_DEBUG_FLOOD='false'
# show extra output data
B_EXTRA_DATA='false'
# override certain errors due to currupted data
B_HANDLE_CORRUPT_DATA='false'
B_LABEL_SET='false'
B_LOG_COLORS='false'
B_LOG_FULL_DATA='false'
# kde qdbus
B_QDBUS='false'
B_ROOT='false'
# Running in a shell? Defaults to false, and is determined later.
B_RUNNING_IN_SHELL='false'
# this sets the debug buffer
B_SCRIPT_UP='false'
# Show sound card data
B_SHOW_AUDIO='false'
B_SHOW_CPU='false'
B_SHOW_DISK='false'
# Show full hard disk output
B_SHOW_FULL_HDD='false'
B_SHOW_GRAPHICS='false'
# Set this to 'false' to avoid printing the hostname
B_SHOW_HOST='true'
B_SHOW_INFO='false'
B_SHOW_IP='false'
B_SHOW_LABELS='false'
B_SHOW_NETWORK='false'
# either -v > 3 or -P will show partitions
B_SHOW_PARTITIONS='false'
B_SHOW_PARTITIONS_FULL='false'
B_SHOW_PS_CPU_DATA='false'
B_SHOW_PS_MEM_DATA='false'
B_SHOW_REPOS='false'
B_SHOW_SENSORS='false'
# triggers only short inxi output
B_SHOW_SHORT_OUTPUT='false'
B_SHOW_SYSTEM='false'
B_SHOW_UNMOUNTED_PARTITIONS='false'
B_SHOW_UUIDS='false'
# triggers various debugging and new option testing
B_TESTING_1='false'
B_TESTING_2='false'
# set to true here for debug logging from script start
B_USE_LOGGING='false'
B_UUID_SET='false'
# Test for X running
B_X_RUNNING='false'

### Directory/file exist flags; test as [[ $(boolean) ]] not [[ $boolean ]]
B_ASOUND_DEVICE_FILE='false'
B_ASOUND_VERSION_FILE='false'
B_BASH_ARRAY='false'
B_CPUINFO_FILE='false'
B_LSB_FILE='false'
B_MEMINFO_FILE='false'
B_MODULES_FILE='false' #
B_MOUNTS_FILE='false'
B_PARTITIONS_FILE='false' #
B_PROC_DIR='false'
B_SCSI_FILE='false'

### File's used when present
FILE_ASOUND_DEVICE='/proc/asound/cards'
FILE_ASOUND_VERSION='/proc/asound/version'
FILE_CPUINFO='/proc/cpuinfo'
FILE_LSB_RELEASE='/etc/lsb-release'
FILE_MEMINFO='/proc/meminfo'
FILE_MODULES='/proc/modules'
FILE_MOUNTS='/proc/mounts'
FILE_PARTITIONS='/proc/partitions'
FILE_SCSI='/proc/scsi/scsi'

## app tested for and present, to avoid repeat tests
B_FILE_TESTED='false'
B_HDDTEMP_TESTED='false'
B_MODINFO_TESTED='false'
B_SUDO_TESTED='false'
FILE_PATH=''
HDDTEMP_PATH=''
MODINFO_PATH=''
SUDO_PATH=''

### Variable initializations: constants
DCOPOBJ="default"
DEBUG=0 # Set debug levels from 1-10 (8-10 trigger logging levels)
# Debug Buffer Index, index into a debug buffer storing debug messages until inxi is 'all up'
DEBUG_BUFFER_INDEX=0
## note: the debugger rerouting to /dev/null has been moved to the end of the get_parameters function
## so -@[number] debug levels can be set if there is a failure, otherwise you can't even see the errors

# Defaults to 2, make this 1 for normal, 0 for no colorcodes at all. Set to any other valid scheme you like.
# Same as runtime parameter.
DEFAULT_SCHEME=2

# Default indentation level
INDENT=10

# logging eval variables, start and end function: Insert to LOGFS LOGFE when debug level >= 8
LOGFS_STRING='log_function_data fs $FUNCNAME "$( echo $@ )"'
LOGFE_STRING='log_function_data fe $FUNCNAME'
LOGFS=''
LOGFE=''
# uncomment for debugging from script start
# LOGFS=$LOGFS_STRING
# LOGFE=$LOGFE_STRING

# default to false, no konversation found, 1 is native konvi (qt3/KDE3) script mode, 2 is /cmd inxi start,
##	3 is Konversation > 1.2 (qt4/KDE4) 
KONVI=0
# NO_CPU_COUNT=0	# Wether or not the string "dual" or similar is found in cpuinfo output. If so, avoid dups.
# This is a variable that controls how many parameters inxi will parse in a /proc/<pid>/cmdline file before stopping.
PARAMETER_LIMIT=30
SCHEME=0 # set default scheme
# this is set in user prefs file, to override dynamic temp1/temp2 determination of sensors output in case
# cpu runs colder than mobo
SENSORS_CPU_NO=''
# SHOW_IRC=1 to avoid showing the irc client version number, or SHOW_IRC=0 to disable client information completely.
SHOW_IRC=2
# Verbosity level defaults to 0, this can also be set with -v0, -v2, -v3, etc as a parameter.
VERBOSITY_LEVEL=0
# Supported number of verbosity levels, including 0
VERBOSITY_LEVELS=5

# Clear nullglob, because it creates unpredictable situations with IFS=$'\n' ARR=($VAR) IFS="$ORIGINAL_IFS"
# type constructs. Stuff like [rev a1] is now seen as a glob expansion pattern, and fails, and
# therefore results in nothing.
shopt -u nullglob
## info on bash built in: $IFS - http://tldp.org/LDP/abs/html/internalvariables.html
# Backup the current Internal Field Separator
ORIGINAL_IFS="$IFS"

# These two determine separators in single line output, to force irc clients not to break off sections
SEP1='-'
SEP2='~'

### Script names/paths - must be non root writable
SCRIPT_DATA_DIR="$HOME/.inxi"
LOG_FILE="$SCRIPT_DATA_DIR/inxi.log"
LOG_FILE_1="$SCRIPT_DATA_DIR/inxi.1.log"
LOG_FILE_2="$SCRIPT_DATA_DIR/inxi.2.log"
SCRIPT_NAME="inxi"
SCRIPT_PATH=""			#filled-in in Main
SCRIPT_VERSION_NUMBER=""	#filled-in in Main
SCRIPT_DOWNLOAD='http://inxi.googlecode.com/svn/trunk/'
SCRIPT_DOWNLOAD_BRANCH_1='http://inxi.googlecode.com/svn/branches/one/'
SCRIPT_DOWNLOAD_BRANCH_2='http://inxi.googlecode.com/svn/branches/two/'
SCRIPT_DOWNLOAD_BRANCH_3='http://inxi.googlecode.com/svn/branches/three/'
SCRIPT_DOWNLOAD_BRANCH_4='http://inxi.googlecode.com/svn/branches/four/'
SCRIPT_DOWNLOAD_DEV='http://smxi.org/test/'
KONVI_CFG="konversation/scripts/$SCRIPT_NAME.conf" # relative path to $(kde-config --path data)

### Script Localization
# Make sure every program speaks English.
LC_ALL="C"
export LC_ALL

### Output Colors
# A more elegant way to have a scheme that doesn't print color codes (neither ANSI nor mIRC) at all. See below.
unset EMPTY
#              DGREY    BLACK    RED      DRED     GREEN    DGREEN   YELLOW   DYELLOW
ANSI_COLORS="       "
IRC_COLORS="   \x0314   \x0301   \x0304   \x0305   \x0309   \x0303   \x0308   \x0307"
#                            BLUE     DBLUE    MAGENTA  DMAGENTA CYAN     DCYAN    WHITE    GREY     NORMAL
ANSI_COLORS="$ANSI_COLORS         "
IRC_COLORS=" $IRC_COLORS    \x0312   \x0302   \x0313   \x0306   \x0311   \x0310   \x0300   \x0315   \x03"

#ANSI_COLORS=($ANSI_COLORS); IRC_COLORS=($IRC_COLORS)
A_COLORS_AVAILABLE=( DGREY BLACK RED DRED GREEN DGREEN YELLOW DYELLOW BLUE DBLUE MAGENTA DMAGENTA CYAN DCYAN WHITE GREY NORMAL )
# See above for notes on EMPTY
A_COLOR_SCHEMES=( EMPTY,EMPTY,EMPTY NORMAL,NORMAL,NORMAL BLUE,NORMAL,NORMAL GREEN,YELLOW,NORMAL DYELLOW,NORMAL,NORMAL CYAN,BLUE,NORMAL RED,NORMAL,NORMAL GREEN,NORMAL,NORMAL YELLOW,NORMAL,NORMAL GREEN,DGREEN,NORMAL BLUE,RED,NORMAL BLUE,NORMAL,RED YELLOW,WHITE,GREEN BLUE,NORMAL,GREEN DCYAN,NORMAL,DMAGENTA )
## Actual color variables
C1=''
C2=''
CN=''

### Distro Data
# In cases of derived distros where the version file of the base distro can also be found under /etc,
# the derived distro's version file should go first. (Such as with Sabayon / Gentoo)
DISTROS_DERIVED="antix-version kanotix-version knoppix-version mandrake-release pardus-release sabayon-release sidux-version turbolinux-release zenwalk-version"
# debian_version excluded from DISTROS_PRIMARY so Debian can fall through to /etc/issue detection. Same goes for Ubuntu.
DISTROS_EXCLUDE_LIST="debian_version ubuntu_version"
DISTROS_PRIMARY="gentoo-release redhat-release slackware-version SuSE-release"
DISTROS_LSB_GOOD="mandrake-release mandriva-release mandrakelinux-release"
## Distros with known problems
# DSL (Bash 2.05b: grep -m doesn't work; arrays won't work) --> unusable output
# Puppy Linux 4.1.2 (Bash 3.0: arrays won't work) --> works partially

### Bans Data
# Precede a banword with $'\2' to prevent it from being subject to automated escaping by the make_ban_lists routine
# $'\1' gets weird results :
# user@host $ ARR=($'\x01'"one two" three four); echo ${ARR[0]} | hd -v
# 00000000  01 01 6f 6e 65 20 74 77  6f 0a                    |..one two.|
A_NORMAL_BANS=( corporation communications gmbh technologies technology group $'\2'"\<ltd\>" ltd. $'\2'"\<inc\>" inc. $'\2'\<co\> co. "(tm)" "(r)" "®" $'\2'"\(rev ..\)" )
A_CPU_BANS=( @ cpu deca 'dual core' dual-core 'tri core' tri-core 'quad core' quad-core ennea genuine hepta hexa multi octa penta 'processor' processor single triple $'\2'"[0-9.]+ *[MmGg][Hh][Zz]" )
# after processing, the ban arrays will be put into these:
BAN_LIST_NORMAL=''
BAN_LIST_CPU=''

# WARNING: In the main part below (search for 'KONVI')
# there's a check for Konversation-specific config files.
# Any one of these can override the above if inxi is run
# from Konversation!

########################################################################
#### MAIN: Where it all begins
########################################################################
main()
{
	eval $LOGFS
	
	# This function just initializes variables
	initialize_script_data

	# Check for dependencies BEFORE running ANYTHING else except above functions
	# Not all distro's have these depends installed by default
	check_script_depends
	check_script_suggested_apps
	
	# note: this needs to go AFTER depends check because these use gawk
	# Do this after sourcing of config overrides so user can customize banwords
	# Contrary to my previous belief, "${ARR[@]}" passes a quoted list, not one string
	BAN_LIST_NORMAL=$( make_ban_lists "${A_NORMAL_BANS[@]}" ) 
	BAN_LIST_CPU=$( make_ban_lists "${A_CPU_BANS[@]}" )
	##echo "BAN_LIST_NORMAL='$BAN_LIST_NORMAL'"

	# first init function must be set first for colors etc. Remember, no debugger
	# stuff works on this function unless you set the debugging flag manually.
	# Debugging flag -@ [number] will not work until get_parameters runs.
	
	### Only continue if depends ok
	SCRIPT_PATH=$( dirname $0 )
	SCRIPT_VERSION_NUMBER=$( grep -im 1 'version:' $SCRIPT_PATH/$SCRIPT_NAME | gawk '{print $3}' )
	
	### Source global config overrides
	if [[ -s /etc/$SCRIPT_NAME.conf ]];then
		source /etc/$SCRIPT_NAME.conf
	fi
	# Source user config overrides, ~/.inxi/inxi.conf
	if [[ -s $HOME/.$SCRIPT_NAME/$SCRIPT_NAME.conf ]];then
		source $HOME/.$SCRIPT_NAME/$SCRIPT_NAME.conf
	fi

	## this needs to run before the KONVI stuff is set below
	## Konversation 1.2 apparently does not like the $PPID test in get_start_client
	## So far there is no known way to detect if qt4_konvi is the parent process
	## this method will infer qt4_konvi as parent
	
	get_start_client

	# note: this only works if it's run from inside konversation as a script builtin or something
	# only do this if inxi has been started as a konversation script, otherwise bypass this	
#	KONVI=3 ## for testing puroses
	## 
	if [[ $KONVI -eq 1 || $KONVI -eq 3 ]];then
		
		if [[ $KONVI -eq 1 ]]; then ## dcop Konversation (ie 1.x < 1.2(qt3))	
			DCPORT="$1"
			DCSERVER="$2"
			DCTARGET="$3"
			shift 3
		elif [[ $KONVI -eq 3 ]]; then ## dbus Konversation (> 1.2 (qt4))
			DCSERVER="$1" ##dbus testing
			DCTARGET="$2" ##dbus testing
			shift 2
		fi

		# The section below is on request of Argonel from the Konversation developer team:
		# it sources config files like $HOME/.kde/share/apps/konversation/scripts/inxi.conf
		IFS=":"
		for kde_config in $( kde-config --path data )
		do
			if [[ -r ${kde_config}${KONVI_CFG} ]];then
				source "${kde_config}${KONVI_CFG}"
				break
			fi
		done
		IFS="$ORIGINAL_IFS"
	fi

	## leave this for debugging dcop stuff if we get that working
	# 	print_screen_output "DCPORT: $DCPORT"
	# 	print_screen_output "DCSERVER: $DCSERVER"
	# 	print_screen_output "DCTARGET: $DCTARGET"

	# "$@" passes every parameter separately quoted, "$*" passes all parameters as one quoted parameter.
	# must be here to allow debugger and other flags to be set.
	get_parameters "$@"

	# If no colorscheme was set in the parameter handling routine, then set the default scheme
	if [[ $COLOR_SCHEME_SET != 'true' ]];then
		set_color_scheme "$DEFAULT_SCHEME"
	fi

	# all the pre-start stuff is in place now
	B_SCRIPT_UP='true'
	script_debugger "Debugger: $SCRIPT_NAME is up and running..."
	
	# then create the output
	print_it_out

	## last steps
	if [[ $B_RUNNING_IN_SHELL == 'true' && $SCHEME -gt 0 ]];then
		echo -n ""
	fi
	eval $LOGFE
	# weechat's executor plugin forced me to do this, and rightfully so, because else the exit code
	# from the last command is taken..
	exit 0
}

#### -------------------------------------------------------------------
#### basic tests: set script data, booleans, PATH
#### -------------------------------------------------------------------

# Set PATH data so we can access all programs as user. Set BAN lists.
# initialize some boleans, these directories are used throughout the script
# some apps are used for extended functions any directory used, should be
# checked here first.
# No args taken.
initialize_script_data()
{
	eval $LOGFS
	local path='' sys_path='' added_path='' b_path_found=''
	# Extra path variable to make execute failures less likely, merged below
	local extra_paths="/bin:/sbin:/usr/bin:/usr/sbin:/usr/local/bin:/usr/local/sbin"

	# Fallback paths put into $extra_paths; This might, among others, help on gentoo.
	# Now, create a difference of $PATH and $extra_paths and add that to $PATH:
	IFS=":"
	for path in $extra_paths
	do
		b_path_found='false'
		for sys_path in $PATH
		do
			if [[ $path == $sys_path ]];then
				b_path_found='true'
			fi
		done
		if [[ $b_path_found == 'false' ]];then
			added_path="$added_path:$path"
		fi
	done

	IFS="$ORIGINAL_IFS"
	PATH="${PATH}${added_path}"
	##echo "PATH='$PATH'"
	##/bin/sh -c 'echo "PATH in subshell=\"$PATH\""'

	# now set the script BOOLEANS for files required to run features
	if [[ -d "/proc/" ]];then
		B_PROC_DIR='true'
	else
		error_handler 6
	fi

	if [[ -e $FILE_CPUINFO ]]; then
		B_CPUINFO_FILE='true'
	fi

	if [[ -e $FILE_MEMINFO ]];then
		B_MEMINFO_FILE='true'
	fi

	if [[ -e $FILE_ASOUND_DEVICE ]];then
		B_ASOUND_DEVICE_FILE='true'
	fi

	if [[ -e $FILE_ASOUND_VERSION ]];then
		B_ASOUND_VERSION_FILE='true'
	fi

	if [[ -f $FILE_LSB_RELEASE ]];then
		B_LSB_FILE='true'
	fi

	if [[ -e $FILE_SCSI ]];then
		B_SCSI_FILE='true'
	fi

	if [[ -n $DISPLAY ]];then
		B_X_RUNNING='true'
	fi

	if [[ -e $FILE_MODULES ]];then
		B_MODULES_FILE='true'
	fi

	if [[ -e $FILE_MOUNTS ]];then
		B_MOUNTS_FILE='true'
	fi

	if [[ -e $FILE_PARTITIONS ]];then
		B_PARTITIONS_FILE='true'
	fi
	# gfx output will require this flag
	if [[ $( whoami ) == 'root' ]];then
		B_ROOT='true'
	fi
	eval $LOGFE
}

# No args taken.
check_script_suggested_apps()
{
	eval $LOGFS
	local bash_array_test=( "one" "two" )

	# check for array ability of bash, this is only good for the warning at this time
	# the boolean could be used later
	# bash version 2.05b is used in DSL
	# bash version 3.0 is used in Puppy Linux; it has a known array bug <reference to be placed here>
	# versions older than 3.1 don't handle arrays
	# distro's using below 2.05b are unknown, released in 2002
	if [[ ${bash_array_test[1]} -eq "two" ]];then
		B_BASH_ARRAY='true'
	else
		script_debugger "Suggestion: update to Bash v3.1 for optimal inxi output"
	fi
	# now setting qdbus/dcop for first run, some systems can have both by the way
	if [[ -n $( type -p qdbus ) ]];then
		B_QDBUS='true'
	fi
	if [[ -n $( type -p dcop ) ]];then
		B_DCOP='true'
	fi
	eval $LOGFE
}

# Determine if any of the absolutely necessary tools are absent
# No args taken.
check_script_depends()
{
	eval $LOGFS
	local app_name='' app_path=''
	# bc removed from deps for now
	local depends="df free gawk grep hostname lspci ps readlink tr uname uptime wc"
	local x_apps="xrandr xdpyinfo glxinfo"

	if [[ $B_X_RUNNING == 'true' ]];then
		for app_name in $x_apps
		do
			app_path=$( type -p $app_name )
			if [[ -z $app_path ]];then
				script_debugger "Resuming in non X mode: $app_name not found in path"
				B_X_RUNNING='false'
				break
			fi
		done
	fi

	app_name=''

	for app_name in $depends
	do
		app_path=$( type -p $app_name )
		if [[ -z $app_path ]];then
			error_handler 5 "$app_name"
		fi
	done
	eval $LOGFE
}

## note: this is now running inside each gawk sequence directly to avoid exiting gawk
## looping in bash through arrays, then re-entering gawk to clean up, then writing back to array
## in bash. For now I'll leave this here because there's still some interesting stuff to get re methods
# Enforce boilerplate and buzzword filters
# args: $1 - BAN_LIST_NORMAL/BAN_LIST_CPU; $2 - string to sanitize
sanitize_characters()
{
	eval $LOGFS
	# Cannot use strong quotes to unquote a string with pipes in it!
	# bash will interpret the |'s as usual and try to run a subshell!
	# Using weak quotes instead, or use '"..."'
	echo "$2" | gawk "
	BEGIN {
		IGNORECASE=1
	}
	{
		gsub(/${!1}/,\"\")
		gsub(/ [ ]+/,\" \")    ## ([ ]+) with (space)
		gsub(/^ +| +$/,\"\")   ## (pipe char) with (nothing)
		print                  ## prints (returns) cleaned input
	}"
	eval $LOGFE
}

# Filter boilerplate & buzzwords.
# args: $1 - quoted: "$@" array of ban terms
make_ban_lists()
{
	eval $LOGFS
	local ban_list=''
	# Iterate over $@
	## note: this is a weird, non-intuitive method, needs some documentation or rewriting
	## if you declare ban_string it stops working, have to read up on this
	for ban_string
	do
		# echo "term=\"$ban_string\"" # >&2
		if [[ ${ban_string:0:1} = $'\2' ]];then
			ban_list="${ban_list}${ban_list+|}${ban_string:1:${#ban_string}-1}"
		else
			# Automatically escapes [ ] ( ) . and +
			ban_list="${ban_list}${ban_list+|}$( echo "$ban_string" | gawk '{
				gsub(/([\[\]+().])/,"\\\\&")
				print
			}' )"
		fi
	done

	echo "$ban_list"
	eval $LOGFS
}
# make_ban_lists "${A_CPU_BANS[@]}";exit

# Set the colorscheme
# args: $1 = <scheme number>|<"none">
set_color_scheme()
{
	eval $LOGFS
	local i='' script_colors='' color_codes=''

	if [[ $1 -ge ${#A_COLOR_SCHEMES[@]} ]];then
		set -- 1
	fi
	# Set a global variable to allow checking for chosen scheme later
	SCHEME="$1"
	if [[ $B_RUNNING_IN_SHELL == 'true' ]];then
		color_codes=( $ANSI_COLORS )
	else
		color_codes=( $IRC_COLORS )
	fi
	for (( i=0; i < ${#A_COLORS_AVAILABLE[@]}; i++ ))
	do
		eval "${A_COLORS_AVAILABLE[i]}=\"${color_codes[i]}\""
	done
	IFS=","
	script_colors=( ${A_COLOR_SCHEMES[$1]} )
	IFS="$ORIGINAL_IFS"
	# then assign the colors globally
	C1="${!script_colors[0]}"
	C2="${!script_colors[1]}"
	CN="${!script_colors[2]}"
	# ((COLOR_SCHEME++)) ## note: why is this? ##
	eval $LOGFE
}

########################################################################
#### UTILITY FUNCTIONS
########################################################################

#### -------------------------------------------------------------------
#### error handler, debugger, script updater
#### -------------------------------------------------------------------

# Error handling
# args: $1 - error number; $2 - optional, extra information
error_handler()
{
	eval $LOGFS
	local error_message=''

	# assemble the error message
	case $1 in
		2)	error_message="large flood danger, debug buffer full!"
			;;
		3)	error_message="unsupported color scheme number: $2"
			;;
		4)	error_message="unsupported verbosity level: $2"
			;;
		5)	error_message="dependency not met: $2 not found in path"
			;;
		6)	error_message="/proc not found! Quitting..."
			;;
		7)	error_message="One of the options you entered in your script parameters: $2\nis not supported.The option may require extra arguments to work.\nFor supported options (and their arguments), check the help menu: $SCRIPT_NAME -h"
			;;
		8)	error_message="the self-updater failed, wget exited with error: $2.\nYou probably need to be root.\nHint, to make for easy updates without being root, do: chown <user name> $SCRIPT_PATH/$SCRIPT_NAME"
			;;
		9)	error_message="unsupported debugging level: $2"
			;;
		10)
			error_message="the alt download url you provided: $2\nappears to be wrong, download aborted. Please note, the url\nneeds to end in /, without $SCRIPT_NAME, like: http://yoursite.com/downloads/"
			;;
		11)
			error_message="unsupported testing option argument: -! $2"
			;;
		12)
			error_message="the svn branch download url: $2\nappears to be empty currently. Make sure there is an actual svn branch version\nactive before you try this again. Check http://code.google.com/p/inxi\nto verify the branch status."
			;;
		13)
			error_message="The -t option requires the following extra arguments (no spaces between letters/numbers):\nc m cm [required], for example: -t cm8 OR -t cm OR -t c9\n(numbers: 1-20, > 5 throttled to 5 in irc clients) You entered: $2"
			;;
		*)	error_message="error unknown: $@"
			set -- 99
			;;
	esac
	# then print it and exit
	print_screen_output "Error $1: $error_message"
	eval $LOGFE
	exit $1
}

# prior to script up set, pack the data into an array
# then we'll print it out later.
# args: $1 - $@ debugging string text
script_debugger()
{
	eval $LOGFS
	if [[ $B_SCRIPT_UP == 'true' ]];then
		# only return if debugger is off and no pre start up errors have occured
		if [[ $DEBUG -eq 0 && $DEBUG_BUFFER_INDEX -eq 0 ]];then
			return 0
		# print out the stored debugging information if errors occured
		elif [[ $DEBUG_BUFFER_INDEX -gt 0 ]];then
			for (( DEBUG_BUFFER_INDEX=0; DEBUG_BUFFER_INDEX < ${#A_DEBUG_BUFFER[@]}; DEBUG_BUFFER_INDEX++ ))
			do
				print_screen_output "${A_DEBUG_BUFFER[$DEBUG_BUFFER_INDEX]}"
			done
			DEBUG_BUFFER_INDEX=0
		fi
		# or print out normal debugger messages if debugger is on
		if [[ $DEBUG -gt 0 ]];then
			print_screen_output "$1"
		fi
	else
		if [[ $B_DEBUG_FLOOD == 'true' && $DEBUG_BUFFER_INDEX -gt 10 ]];then
			error_handler 2
		# this case stores the data for later printout, will print out only
		# at B_SCRIPT_UP == 'true' if array index > 0
		else
			A_DEBUG_BUFFER[$DEBUG_BUFFER_INDEX]="$1"
			# increment count for next pre script up debugging error
			(( DEBUG_BUFFER_INDEX++ ))
		fi
	fi
	eval $LOGFE
}

# NOTE: no logging available until get_parameters is run, since that's what sets logging
# in order to trigger earlier logging manually set B_USE_LOGGING to true in top variables.
# $1 alone: logs data; $2 with or without $3 logs func start/end.
# $1 type (fs/fe/cat/raw) or logged data; [$2 is $FUNCNAME; [$3 - function args]]
log_function_data()
{
	if [ "$B_USE_LOGGING" == 'true' ];then
		local logged_data='' spacer='   ' line='----------------------------------------'
		case $1 in
			fs)
				logged_data="Function: $2 - Primary: Start"
				if [ -n "$3" ];then
					logged_data="$logged_data\n${spacer}Args: $3"
				fi
				spacer=''
				;;
			fe)
				logged_data="Function: $2 - Primary: End"
				spacer=''
				;;
			cat)
				if [[ $B_LOG_FULL_DATA == 'true' ]];then
					logged_data="\n$line\nFull file data: cat $2\n\n$( cat $2 )\n$line\n"
					spacer=''
				fi
				;;
			raw)
				if [[ $B_LOG_FULL_DATA == 'true' ]];then
					logged_data="\n$line\nRaw system data:\n\n$2\n$line\n"
					spacer=''
				fi
				;;
			*)
				logged_data="$1"
				;;
		esac
		# Create any required line breaks and strip out escape color code, either ansi (case 1)or irc (case 2).
		# This pattern doesn't work for irc colors, if we need that someone can figure it out
		if [[ -n $logged_data ]];then
			if [[ $B_LOG_COLORS != 'true' ]];then
				echo -e "${spacer}$logged_data" | sed -r 's/\x1b\[[0-9]{1,2}(;[0-9]{1,2}){0,2}m//g' >> $LOG_FILE
			else
				echo -e "${spacer}$logged_data" >> $LOG_FILE
			fi
		fi
	fi
}

# called in the initial -@ 10 script args setting so we can get logging as soon as possible
# will have max 3 files, inxi.log, inxi.1.log, inxi.2.log
create_rotate_logfiles()
{
	if [[ ! -d $SCRIPT_DATA_DIR ]];then
		mkdir $SCRIPT_DATA_DIR
	fi
	# do the rotation if logfile exists
	if [[ -f $LOG_FILE ]];then
		# copy if present second to third
		if [[ -f $LOG_FILE_1 ]];then
			mv -f $LOG_FILE_1 $LOG_FILE_2
		fi
		# then copy initial to second
		mv -f $LOG_FILE $LOG_FILE_1
	fi
	# now create the logfile
	touch $LOG_FILE
	# and echo the start data
	echo "=========================================================" >> $LOG_FILE
	echo "START $SCRIPT_NAME LOGGING:"                               >> $LOG_FILE
	echo "Script started: $( date +%Y-%m-%d-%H:%M:%S )"              >> $LOG_FILE
	echo "=========================================================" >> $LOG_FILE
}

# args: $1 - download url, not including file name; $2 - string to print out
# note that $1 must end in / to properly construct the url path
script_self_updater()
{
	eval $LOGFS
	local wget_error=0
	print_screen_output "Starting $SCRIPT_NAME self updater."
	print_screen_output "Currently running $SCRIPT_NAME version number: $SCRIPT_VERSION_NUMBER"
	print_screen_output "Updating $SCRIPT_NAME in $SCRIPT_PATH using $2 as download source..."
	# first test if path is good, need to make sure it's good because we're -O overwriting file
	wget -q --spider $1$SCRIPT_NAME || wget_error=$?
	# then do the actual download
	if [[ $wget_error -eq 0 ]];then
		wget -q -O $SCRIPT_PATH/$SCRIPT_NAME $1$SCRIPT_NAME || wget_error=$?
		if [[ $wget_error -eq 0 ]];then
			SCRIPT_VERSION_NUMBER=$( grep -im 1 'version:' $SCRIPT_PATH/$SCRIPT_NAME | gawk '{print $3}' )
			print_screen_output "Successfully updated to $2 version: $SCRIPT_VERSION_NUMBER"
			print_screen_output "To run the new version, just start $SCRIPT_NAME again."
			exit 0
		fi
	fi
	# now run the error handlers on any wget failure
	if [[ $wget_error -gt 0 ]];then
		if [[ $2 == 'svn server' ]];then
			error_handler 8 "$wget_error"
		elif [[ $2 == 'alt server' ]];then
			error_handler 10 "$1"
		else
			error_handler 12 "$1"
		fi
	fi
	eval $LOGFS
}

#### -------------------------------------------------------------------
#### print / output cleaners
#### -------------------------------------------------------------------

# inxi speaks through here. When run by Konversation script alias mode, uses DCOP
# for dcop to work, must use 'say' operator, AND colors must be evaluated by echo -e
# note: dcop does not seem able to handle \n so that's being stripped out and replaced with space.
print_screen_output()
{
	eval $LOGFS
	# the double quotes are needed to avoid losing whitespace in data when certain output types are used
	local print_data="$( echo -e "$1" )"

	# just using basic debugger stuff so you can tell which thing is printing out the data. This
	# should help debug kde 4 konvi issues when that is released into sid, we'll see. Turning off
	# the redundant debugger output which as far as I can tell does exactly nothing to help debugging.
	if [[ $DEBUG -gt 5 ]];then
		if [[ $KONVI -eq 1 ]];then
			# konvi doesn't seem to like \n characters, it just prints them literally
			# print_data="$( tr '\n' ' ' <<< "$print_data" )"
			# dcop "$DCPORT" "$DCOPOBJ" say "$DCSERVER" "$DCTARGET" "konvi='$KONVI' saying : '$print_data'"
			print_data="KP-$KONVI: $print_data"
		elif [[ $KONVI -eq 2 ]];then
			# echo "konvi='$KONVI' saying : '$print_data'"
			print_data="KP-$KONVI: $print_data"
		else
			# echo "printing out: '$print_data'"
			print_data="P: $print_data"
		fi
	fi

	if [[ $KONVI -eq 1 && $B_DCOP == 'true' ]]; then ## dcop Konversation (<= 1.1 (qt3))
		# konvi doesn't seem to like \n characters, it just prints them literally
		$print_data="$( tr '\n' ' ' <<< "$print_data" )"
		dcop "$DCPORT" "$DCOPOBJ" say "$DCSERVER" "$DCTARGET" "$print_data"

	elif [[ $KONVI -eq 3 && $B_QDBUS == 'true' ]]; then ## dbus Konversation (> 1.2 (qt4))
		qdbus org.kde.konversation /irc say "$DCSERVER" "$DCTARGET" "$print_data"

#	elif [[ $IRC_CLIENT == 'X-Chat' ]]; then
#		qdbus org.xchat.service print "$print_data\n"

	else
		# the -n is needed to avoid double spacing of output in terminal
		echo -ne "$print_data\n"
	fi
	eval $LOGFE
}

## this handles all verbose line construction with indentation/line starter
## args: $1 - null (, actually: " ") or line starter; $2 - line content
create_print_line()
{
	eval $LOGFS
	printf "${C1}%-${INDENT}s${C2} %s" "$1" "$2"
	eval $LOGFE
}

# this removes newline and pipes.
# args: $1 - string to clean
remove_erroneous_chars()
{
	eval $LOGFS
	## RS is input record separator
	## gsub is substitute;
	gawk '
	BEGIN {
		RS=""
	}
	{
		gsub(/\n$/,"")         ## (newline; end of string) with (nothing)
		gsub(/\n/," ");        ## (newline) with (space)
		gsub(/^ *| *$/, "")    ## (pipe char) with (nothing)
		gsub(/  +/, " ")       ## ( +) with (space)
		gsub(/ [ ]+/, " ")     ## ([ ]+) with (space)
		gsub(/^ +| +$/, "")    ## (pipe char) with (nothing)
		printf $0
	}' "$1"      ## prints (returns) cleaned input
	eval $LOGFE
}

#### -------------------------------------------------------------------
#### parameter handling, print usage functions.
#### -------------------------------------------------------------------

# Get the parameters. Note: standard options should be lower case, advanced or testing, upper
# args: $1 - full script startup args: $@
get_parameters()
{
	eval $LOGFS
	local opt='' wget_test='' update_flags='U!:'
	local use_short='true' # this is needed to trigger short output, every v/d/F/line trigger sets this false

	# If distro maintainers want to not allow updates, turn off that option for users
	if [[ $B_ALLOW_UPDATE == 'false' ]];then
		update_flags=''
	fi

	# the short form only runs if no args output args are used
	# no need to run through these if there are no args
	if [[ -n $1 ]];then
		while getopts Ac:CdDfFGhHiIlNopPrsSt:uv:Vx%@:${update_flags} opt
		do
			case $opt in
			A)	B_SHOW_AUDIO='true'
				use_short='false'
				;;
			c)	if [[ -n $( grep -E '^[0-9][0-9]?$' <<< $OPTARG ) ]];then
					COLOR_SCHEME_SET='true'
					## note: not sure about this, you'd think user values should be overridden, but
					## we'll leave this for now
					if [[ -z $COLOR_SCHEME ]];then
						set_color_scheme "$OPTARG"
					fi
				else
					error_handler 3 "$OPTARG"
				fi
				;;
			C)	B_SHOW_CPU='true'
				use_short='false'
				;;
			d)	VERBOSITY_LEVEL=1
				use_short='false'
				;;
			D)	B_SHOW_DISK='true'
				use_short='false'
				;;
			f)	B_SHOW_CPU='true'
				B_CPU_FLAGS_FULL='true'
				use_short='false'
				;;
			F)	VERBOSITY_LEVEL=$VERBOSITY_LEVELS
				B_EXTRA_DATA='true'
				B_SHOW_DISK='true'
				B_SHOW_PARTITIONS='true'
				B_SHOW_AUDIO='true'
				use_short='false'
				;;
			G)	B_SHOW_GRAPHICS='true'
				use_short='false'
				;;
			i)	B_SHOW_IP='true'
				B_SHOW_NETWORK='true'
				use_short='false'
				;;
			I)	B_SHOW_INFO='true'
				use_short='false'
				;;
			l)	B_SHOW_LABELS='true'
				B_SHOW_PARTITIONS='true'
				use_short='false'
				;;
			N)	B_SHOW_NETWORK='true'
				use_short='false'
				;;
			o) B_SHOW_UNMOUNTED_PARTITIONS='true'
				use_short='false'
				;;
			p)	B_SHOW_PARTITIONS_FULL='true'
				B_SHOW_PARTITIONS='true'
				use_short='false'
				;;
			P)	B_SHOW_PARTITIONS='true'
				use_short='false'
				;;
			r)	B_SHOW_REPOS='true'
				use_short='false'
				;;
			
			s)	B_SHOW_SENSORS='true'
				use_short='false'
				;;
			S)	B_SHOW_SYSTEM='true'
				use_short='false'
				;;
			t)	if [[ -n $( grep -E '^(c|m|cm|mc)([1-9]|1[0-9]|20)?$' <<< $OPTARG ) ]];then
					use_short='false'
					if [[ -n $( grep -E '[0-9]+' <<< $OPTARG ) ]];then
						PS_COUNT=$( grep -Eo '[0-9]+' <<< $OPTARG )
					fi
					if [[ -n $( grep 'c' <<< $OPTARG ) ]];then
						B_SHOW_PS_CPU_DATA='true'
					fi
					if [[ -n $( grep 'm' <<< $OPTARG ) ]];then
						B_SHOW_PS_MEM_DATA='true'
					fi
				else
					error_handler 13 "$OPTARG"
				fi
				;;
			u)	B_SHOW_UUIDS='true'
				B_SHOW_PARTITIONS='true'
				use_short='false'
				;;
			v)	if [[ -n $( grep -E "^[0-9][0-9]?$" <<< $OPTARG ) && $OPTARG -le $VERBOSITY_LEVELS ]];then
					VERBOSITY_LEVEL="$OPTARG"
					if [[ $OPTARG -gt 0 ]];then
						use_short='false'
					fi
				else
					error_handler 4 "$OPTARG"
				fi
				;;
			U)	script_self_updater "$SCRIPT_DOWNLOAD" 'svn server'
				;;
			V)	print_version_info
				exit 0
				;;
			x)	B_EXTRA_DATA='true'
				;;
			h)	show_options
				exit 0
				;;
			H)	show_options 'full'
				exit 0
				;;
			## debuggers and testing tools
			%)	B_HANDLE_CORRUPT_DATA='true'
				;;
			@)	if [[ -n $( grep -E "^([1-9]|10)$" <<< $OPTARG ) ]];then
					DEBUG=$OPTARG
					exec 2>&1
					# switch on logging only for -@ 8-10
					if [[ $OPTARG -ge 8 ]];then
						if [[ $OPTARG -eq 10 ]];then
							B_LOG_COLORS='true'
						elif [[ $OPTARG -eq 9 ]];then		
							B_LOG_FULL_DATA='true'
						fi
						B_USE_LOGGING='true'
						# pack the logging data for evals function start/end
						LOGFS=$LOGFS_STRING
						LOGFE=$LOGFE_STRING
						create_rotate_logfiles # create/rotate logfiles before we do anything else
					fi
				else
					error_handler 9 "$OPTARG"
				fi
				;;
			!)	# test for various supported methods
				case $OPTARG in
					1)	B_TESTING_1='true'
						;;
					2)	B_TESTING_2='true'
						;;
					3)	B_TESTING_1='true'
						B_TESTING_2='true'
						;;
					10)
						script_self_updater "$SCRIPT_DOWNLOAD_DEV" 'dev server'
						;;
					11)
						script_self_updater "$SCRIPT_DOWNLOAD_BRANCH_1" 'svn: branch one server'
						;;
					12)
						script_self_updater "$SCRIPT_DOWNLOAD_BRANCH_2" 'svn: branch two server'
						;;
					13)
						script_self_updater "$SCRIPT_DOWNLOAD_BRANCH_3" 'svn: branch three server'
						;;
					14)
						script_self_updater "$SCRIPT_DOWNLOAD_BRANCH_4" 'svn: branch four server'
						;;
					http*)
						script_self_updater "$OPTARG" 'alt server'
						;;
					*)	error_handler 11 "$OPTARG"
						;;
				esac
				;;
			*)	error_handler 7 "$1"
				;;
			esac
		done
	fi
	## this must occur here so you can use the debugging flag to show errors
	## Reroute all error messages to the bitbucket (if not debugging)
	if [[ $DEBUG -eq 0 ]];then
		exec 2>/dev/null
	fi
	#((DEBUG)) && exec 2>&1 # This is for debugging konversation

	# after all the args have been processed, if no long output args used, run short output
	if [[ $use_short == 'true' ]];then
		B_SHOW_SHORT_OUTPUT='true'
	fi
	eval $LOGFE
}

## print out help menu, not including Testing or Debugger stuff because it's not needed
show_options()
{
	local color_scheme_count=${#A_COLOR_SCHEMES[@]}

	print_screen_output "$SCRIPT_NAME supports the following options. You can combine them, or list them"
	print_screen_output "one by one: Examples: $SCRIPT_NAME -v4 -c6 OR $SCRIPT_NAME -dDc 6"
	print_screen_output ""
	print_screen_output "If you start $SCRIPT_NAME with no arguments, it will show the short form."
	print_screen_output "The following options if used without -d or -v will show just that complete line:"
	print_screen_output "A,C,D,G,I,N,P,S - you can use these together to show just the lines you want to see."
	print_screen_output "If you use them with a -v level (or -d), it will show the full output for that line "
	print_screen_output "along with the output for the chosen verbosity level."
	print_screen_output "- - - - - - - - - - - - - - - - - - - - - - - - - - - - -"
	print_screen_output "Output Control Options:"
	print_screen_output "-A  Show Audio/sound card information."
	print_screen_output "-c  Available color schemes. Scheme number is required."
	print_screen_output "    Supported schemes: 0-$color_scheme_count Example: $SCRIPT_NAME -c 11"
	print_screen_output "-C  Show full CPU output, including per CPU clockspeed."
	print_screen_output "-d  Default output verbosity level, same as: $SCRIPT_NAME -v 1"
	print_screen_output "-D  Show full hard Disk info, not only model, ie: /dev/sda ST380817AS 80.0GB."
	print_screen_output "-f  Show all cpu flags used, not just the short list. Not shown with -F to avoid spamming."
	print_screen_output "-F  Show Full output for $SCRIPT_NAME. Does not show extra verbose options like -f -u -l -o -p or -t"
	print_screen_output "-G  Show Graphic card information (card, x type, resolution, glx renderer, version)."
	print_screen_output "-i  Show Wan IP address, and shows local interfaces (requires ifconfig network tool)."
	print_screen_output "    Not shown with -F for user security reasons, you shouldn't paste your local/wan IP."
	print_screen_output "-I  Show Information: processes, uptime, memory, irc client, inxi version."
	print_screen_output "-l  Show partition labels. Default: short partition -P. For full -p output, use: -pl (or -plu)."
	print_screen_output "-N  Show Network card information."
	print_screen_output "-o  Show unmounted partition information (includes UUID and LABEL if available)."
	print_screen_output "    Shows file system type if you have file installed, if you are root OR if you have"
	print_screen_output "    added to /etc/sudoers (sudo v. 1.7 or newer): <username> ALL = NOPASSWD: /usr/bin/file (sample)"
	print_screen_output "-p  Show full partition information (-P plus all other detected partitions)."
	print_screen_output "-P  Show Partition information (shows what -v 4 would show, but without extra data)."
	print_screen_output "    Shows, if detected: / /boot /home /tmp /usr /var. Use -p to see all mounted partitions."
	print_screen_output "-r  Show distro repository data. Currently supported repo types: APT; PACMAN; PISI; YUM."
	print_screen_output "-s  Show sensors output (if sensors installed/configured): mobo/cpu/gpu temp; detected fan speeds."
	print_screen_output "    Gpu temp only for Fglrx/Nvidia drivers. Nvidia shows screen number for > 1 screens."
	print_screen_output "-S  Show System information: host name, kernel, distro"
	print_screen_output "-t  Show processes. Requires extra options: c (cpu) m (memory) cm (cpu+memory). If followed by numbers 1-20,"
	print_screen_output "    shows that number of processes for each type (default: $PS_COUNT; if in irc, max: 5): -t cm10"
	print_screen_output "    Make sure to have no space between letters and numbers (-t cm10 -right, -t cm 10 -wrong)."
	print_screen_output "-u  Show partition UUIDs. Default: short partition -P. For full -p output, use: -pu (or -plu)."
	print_screen_output "-v  Script verbosity levels. Verbosity level number is required."
	print_screen_output "    Supported levels: 0-${VERBOSITY_LEVELS} Example: $SCRIPT_NAME -v 4"
	print_screen_output "    0 - short output, same as: $SCRIPT_NAME"
	print_screen_output "    1 - basic verbose, same as: $SCRIPT_NAME -d"
	print_screen_output "    2 - Also show networking card data"
	print_screen_output "    3 - Also show hard disk names as detected."
	print_screen_output "    4 - Also show partition size/filled data for (if present):/, /home, /var/, /boot"
	print_screen_output "    5 - For multicore systems, also shows: per core clock speeds; audio card; full disk data."
	print_screen_output "-x  Show extra data: bogomips on Cpu; driver version (if available) for Network/Audio;"
	print_screen_output "    for network, audio cards, shows PCI Bus ID number also;"
	print_screen_output "    direct rendering status for Graphics (in X). Only works with verbose or line output;"
	print_screen_output "    shows (for single gpu, nvidia driver) screen number gpu is running on."
	print_screen_output "    Shows hdd temp with disk data if you have hddtemp installed, if you are root OR if you have"
	print_screen_output "    added to /etc/sudoers (sudo v. 1.7 or newer): <username> ALL = NOPASSWD: /usr/sbin/hddtemp (sample)"
	print_screen_output "    For -t, adds memory use output to cpu (-tx c), and cpu use to memory (-tx m)."
	print_screen_output ""
	print_screen_output "Additional Options:"
	print_screen_output "-h - this help menu."
	if [[ $B_ALLOW_UPDATE == 'true' ]];then
		print_screen_output "-U  Auto-update script. Note: if you installed as root, you"
		print_screen_output "    must be root to update, otherwise user is fine."
	fi
	print_screen_output "-V  $SCRIPT_NAME version information. Prints information then exits."
	print_screen_output "-%  Overrides defective or corrupted data."
	print_screen_output "-@  Triggers debugger output. Requires debugging level 1-10 (8-10 - logging)."
	print_screen_output "    8 - basic logging; 9 - full file/sys info logging; 10 - color logging."
	if [[ $1 == 'full' ]];then
		print_screen_output ""
		print_screen_output "Developer and Testing Options (Advanced):"
		print_screen_output "-! 1 - Sets testing flag B_TESTING_1='true' to trigger testing condition 1."
		print_screen_output "-! 2 - Sets testing flag B_TESTING_2='true' to trigger testing condition 2."
		print_screen_output "-! 3 - Sets flags B_TESTING_1='true' and B_TESTING_2='true'."
		print_screen_output "-! 10 - Triggers an update from the primary dev download server instead of svn."
		print_screen_output "-! 11 - Triggers an update from svn branch one - if present, of course."
		print_screen_output "-! 12 - Triggers an update from svn branch two - if present, of course."
		print_screen_output "-! 13 - Triggers an update from svn branch three - if present, of course."
		print_screen_output "-! 14 - Triggers an update from svn branch four - if present, of course."
		print_screen_output "-! <http://......> - Triggers an update from whatever server you list."
		print_screen_output ""
	fi
	print_screen_output ""
}

## print out version information for -V/--version
print_version_info()
{
	local last_modified=$( grep -im 1 'date:' $SCRIPT_PATH/$SCRIPT_NAME | gawk '{print $3,$4,$5}' )

	print_screen_output "$SCRIPT_NAME - the universal, portable, system info script for irc."
	print_screen_output "Version: $SCRIPT_VERSION_NUMBER"
	print_screen_output "Script Last Modified: $last_modified"
	print_screen_output "Script Location: $SCRIPT_PATH"
	print_screen_output ""
	print_screen_output "Tested with Irssi, Xchat, Konversation, BitchX, KSirc, ircII,"
	print_screen_output "Gaim/Pidgin, Weechat, KVIrc and Kopete."
	print_screen_output ""
	print_screen_output "This script is a fork of Infobash 3.02, which is:"
	print_screen_output "Copyright (C) 2005-2007  Michiel de Boer a.k.a. locsmif"
	print_screen_output "Subsequent changes and modifications (after Infobash 3.02) are:"
	print_screen_output "Copyright (C) 2008-10 Scott Rogers, Harald Hope, aka trash80 & h2"
	print_screen_output ""
	print_screen_output "This program is free software; you can redistribute it and/or modify"
	print_screen_output "it under the terms of the GNU General Public License as published by"
	print_screen_output "the Free Software Foundation; either version 3 of the License, or"
	print_screen_output "(at your option) any later version."
}

########################################################################
#### MAIN FUNCTIONS
########################################################################

#### -------------------------------------------------------------------
#### initial startup stuff
#### -------------------------------------------------------------------

# Determine where inxi was run from, set IRC_CLIENT and IRC_CLIENT_VERSION
get_start_client()
{
	eval $LOGFS
	local irc_client_path='' irc_client_path_lower='' non_native_konvi='' i=''
	local b_non_native_app='false' pppid='' app_working_name=''
	local b_qt4_konvi='false'

	if tty >/dev/null;then
		IRC_CLIENT='Shell'
		unset IRC_CLIENT_VERSION
		B_RUNNING_IN_SHELL='true'
	elif [[ -n $PPID && -f /proc/$PPID/exe ]];then
		irc_client_path=$( readlink /proc/$PPID/exe )
		irc_client_path_lower=$( tr '[:upper:]' '[:lower:]' <<< $irc_client_path )
		app_working_name=$( basename $irc_client_path_lower )
		# handles the xchat/sh/bash/dash cases, and the konversation/perl cases, where clients
		# report themselves as perl or unknown shell. IE:  when konversation starts inxi
		# from inside itself, as a script, the parent is konversation/xchat, not perl/bash etc
		# note: perl can report as: perl5.10.0, so it needs wildcard handling
		case $app_working_name in
			bash|dash|sh|perl*)	# We want to know who wrapped it into the shell or perl.
				pppid="$( ps -p $PPID -o ppid --no-headers | sed 's/ //g' )"
				if [[ -n $pppid && -f /proc/$pppid/exe ]];then
					irc_client_path="$( readlink /proc/$pppid/exe )"
					irc_client_path_lower="$( tr '[:upper:]' '[:lower:]' <<< $irc_client_path )"
					app_working_name=$( basename $irc_client_path_lower )
					b_non_native_app='true'
				fi
				;;
		esac
		# replacing loose detection with tight detection, bugs will be handled with app names
		# as they appear.
		case $app_working_name in
			# check for shell first
			bash|dash|sh)
				unset IRC_CLIENT_VERSION
				IRC_CLIENT="Shell wrapper"
				;;
			# now start on irc clients, alphabetically
			bitchx)
				IRC_CLIENT_VERSION=" $( $irc_client_path -v | gawk '
				/Version/ {
					a=tolower($2)
					gsub(/[()]|bitchx-/,"",a)
					print a
					exit
				}
				$2 == "version" {
					a=tolower($3)
					sub(/bitchx-/,"",a)
					print a
					exit
				}' )"
				IRC_CLIENT="BitchX"
				;;
			finch)
				IRC_CLIENT_VERSION=" $( $irc_client_path -v | gawk 'NR == 1 {
					print $2
				}' )"
				IRC_CLIENT="Finch"
				;;
			gaim)
				IRC_CLIENT_VERSION=" $( $irc_client_path -v | gawk 'NR == 1 {
					print $2
				}' )"
				IRC_CLIENT="Gaim"
				;;
			ircii)
				IRC_CLIENT_VERSION=" $( $irc_client_path -v | gawk 'NR == 1 {
					print $3
				}' )"
				IRC_CLIENT="ircII"
				;;
			irssi-text|irssi)
				IRC_CLIENT_VERSION=" $( $irc_client_path -v | gawk 'NR == 1 {
					print $2
				}' )"
				IRC_CLIENT="Irssi"
				;;
			konversation) ## konvi < 1.2 (qt4)
				# this is necessary to avoid the dcop errors from starting inxi as a /cmd started script
				if [[ $b_non_native_app == 'true' ]];then  ## true negative is confusing
					KONVI=2
				else # if native app
					KONVI=1
				fi
				IRC_CLIENT_VERSION=" $( $irc_client_path -v | gawk '
				/Konversation:/ {
					for ( i=2; i<=NF; i++ ) {
						if (i == NF) {
							print $i
						}
						else {
							printf $i" "
						}
					}
					exit
				}' )"

				T=($IRC_CLIENT_VERSION)
				if [[ ${T[0]} == *+* ]];then
					# < Sho_> locsmif: The version numbers of SVN versions look like this:
					#         "<version number of last release>+ #<build number", i.e. "1.0+ #3177" ...
					#         for releases we remove the + and build number, i.e. "1.0" or soon "1.0.1"
					IRC_CLIENT_VERSION=" CVS $IRC_CLIENT_VERSION"
					T2="${T[0]/+/}"
				else
					IRC_CLIENT_VERSION=" ${T[0]}"
					T2="${T[0]}"
				fi
				# Remove any dots except the first, and make sure there are no trailing zeroes,
				T2=$( echo "$T2" | gawk '{
					sub(/\./, " ")
					gsub(/\./, "")
					sub(/ /, ".")
					printf("%g\n", $0)
				}' )
				# Since Konversation 1.0, the DCOP interface has changed a bit: dcop "$DCPORT" Konversation ..etc
				# becomes : dcop "$DCPORT" default ... or dcop "$DCPORT" irc ..etc. So we check for versions smaller
				# than 1 and change the DCOP parameter/object accordingly.
				if [[ ${T2} -lt 1 ]];then
					DCOPOBJ="Konversation"
				fi
				IRC_CLIENT="Konversation"
				;;
			kopete)
				IRC_CLIENT_VERSION=" $( kopete -v | gawk '
				/Kopete:/ {
					print $2
					exit
				}' )"
				IRC_CLIENT="Kopete"
				;;
			kvirc)
				IRC_CLIENT_VERSION=" $( $irc_client_path -v 2>&1 | gawk '{
					for ( i=2; i<=NF; i++) {
				 		if ( i == NF ) {
				 			print $i
				 		}
				 		else {
				 			printf $i" "
				 		}
				 	}
				 	exit
				 }' )"
				IRC_CLIENT="KVIrc"
				;;
			pidgin)
				IRC_CLIENT_VERSION=" $( $irc_client_path -v | gawk 'NR == 1 {
					print $2
				}' )"
				IRC_CLIENT="Pidgin"
				;;
			quassel*)
				# sample: quassel -v
				# Qt: 4.5.0
				# KDE: 4.2.65 (KDE 4.2.65 (KDE 4.3 >= 20090226))
				# Quassel IRC: v0.4.0 [+60] (git-22effe5)
				# note: early < 0.4.1 quassels do not have -v
				IRC_CLIENT_VERSION=" $( $irc_client_path -v 2>/dev/null | gawk -F ': ' '
				BEGIN {
					IGNORECASE=1
					clientVersion=""
				}
				/Quassel IRC/ {
					clientVersion = $2
				}
				END {
					# this handles pre 0.4.1 cases with no -v
					if ( clientVersion == "" ) {
						clientVersion = "(pre v0.4.1)"
					}
					print clientVersion
				}' )"
				# now handle primary, client, and core. quasselcore doesn't actually
				# handle scripts with exec, but it's here just to be complete
				case $app_working_name in
					quassel)
						IRC_CLIENT="Quassel [M]"
						;;
					quasselclient)
						IRC_CLIENT="Quassel"
						;;
					quasselcore)
						IRC_CLIENT="Quassel (core)"
						;;
				esac
				;;
			weechat-curses)
				IRC_CLIENT_VERSION=" $( $irc_client_path -v ) "
				IRC_CLIENT="Weechat"
				;;
			xchat-gnome)
				IRC_CLIENT_VERSION=" $( $irc_client_path -v | gawk 'NR == 1 {
					print $2
				}' )"
				IRC_CLIENT="X-Chat-Gnome"
				;;
			xchat)
				IRC_CLIENT_VERSION=" $( $irc_client_path -v | gawk 'NR == 1 {
					print $2
				}' )"
				IRC_CLIENT="X-Chat"
				;;
			# then do some perl type searches, do this last since it's a wildcard search
			perl*|ksirc|dsirc)
				unset IRC_CLIENT_VERSION
				# KSirc is one of the possibilities now. KSirc is a wrapper around dsirc, a perl client
				get_cmdline $PPID
				for (( i=0; i <= $CMDL_MAX; i++ ))
				do
					case ${A_CMDL[i]} in
						*dsirc*)
						IRC_CLIENT="KSirc"
						# Dynamic runpath detection is too complex with KSirc, because KSirc is started from
						# kdeinit. /proc/<pid of the grandparent of this process>/exe is a link to /usr/bin/kdeinit
						# with one parameter which contains parameters separated by spaces(??), first param being KSirc.
						# Then, KSirc runs dsirc as the perl irc script and wraps around it. When /exec is executed,
						# dsirc is the program that runs inxi, therefore that is the parent process that we see.
						# You can imagine how hosed I am if I try to make inxi find out dynamically with which path
						# KSirc was run by browsing up the process tree in /proc. That alone is straightjacket material.
						# (KSirc sucks anyway ;)
						IRC_CLIENT_VERSION=" $( ksirc -v | gawk '
						/KSirc:/ {
							print $2
							exit
						}' )"
						break
						;;
					esac
				done
				if [[ -z $IRC_CLIENT_VERSION ]];then
					IRC_CLIENT="Unknown Perl client"
				fi
				;;
			# then unset, set unknown data
			*)	
				IRC_CLIENT="Unknown : ${irc_client_path##*/}"
				unset IRC_CLIENT_VERSION
				;;
		esac
		if [[ $SHOW_IRC -lt 2 ]];then
			unset IRC_CLIENT_VERSION
		fi
	else
		## lets look to see if qt4_konvi is the parent.  There is no direct way to tell, so lets infer it.
		## because $PPID does not work with qt4_konvi, the above case does not work
		b_qt4_konvi=$( is_this_qt4_konvi )
		if [[ $b_qt4_konvi == 'true' ]];then
			KONVI=3
			IRC_CLIENT='Konversation'
			IRC_CLIENT_VERSION=" $( konversation -v | gawk '
				/Konversation:/ {
					for ( i=2; i<=NF; i++ ) {
						if (i == NF) {
							print $i
						}
						else {
							printf $i" "
						}
					}
					exit
				}' )"
		else
			IRC_CLIENT="PPID=\"$PPID\" - empty?"
			unset IRC_CLIENT_VERSION
		fi
	fi
	log_function_data "IRC_CLIENT: $IRC_CLIENT :: IRC_CLIENT_VERSION: $IRC_CLIENT_VERSION :: PPID: $PPID"
	eval $LOGFE
}

## try to infer the use of Konversation >= 1.2, which shows $PPID improperly
## no known method of finding Kovni >= 1.2 as parent process, so we look to see if it is running,
## and all other irc clients are not running.  
is_this_qt4_konvi()
{
	local konvi_qt4_client='' konvi_dbus_exist='' konvi_pid='' konvi_home_dir='' 
	local konvi='' konvi_qt4_ver='' b_is_qt4=''
	
	# fringe cases can throw error, always if untested app, use 2>/dev/null after testing if present
	if [[ $B_QDBUS == 'true' ]];then
		konvi_dbus_exist=$( qdbus 2>/dev/null | grep "org.kde.konversation" )
	fi
	 
	if [[ -n $konvi_dbus_exist && -e /usr/share/kde4/apps/konversation ]]; then
		konvi_pid=$( ps -A | grep -i 'konversation' )
		konvi_pid=$( echo $konvi_pid | gawk '{ print $1 }' ) 
		konvi_home_dir=$( readlink /proc/$konvi_pid/exe )
		konvi=$( echo $konvi_home_dir | sed "s/\// /g" )
		konvi=($konvi)

		if [[ ${konvi[2]} == 'konversation' ]];then	
			konvi_qt4_ver=$( konversation -v | grep -i 'konversation' )
			konvi_qt4_client=$( echo "$konvi_qt4_ver" | gawk '{ print $2 }' )

			if [[ $konvi_qt4_client > 1.1 ]]; then
				b_is_qt4='true'
			fi
		fi
	else
		konvi_qt4="qt3"
		b_is_qt4='false'
	fi

	echo $b_is_qt4
	## for testing this module
	#qdbus org.kde.konversation /irc say $1 $2 "getpid_dir: $konvi_qt4  qt4_konvi: $konvi_qt4_ver   verNum: $konvi_qt4_ver_num  pid: $konvi_pid ppid: $PPID  konvi_home_dir: ${konvi[2]}"
}

# This needs some cleanup and comments, not quite understanding what is happening, although generally output is known
# Parse the null separated commandline under /proc/<pid passed in $1>/cmdline
# args: $1 - $PPID
get_cmdline()
{
	eval $LOGFS
	local i=0 ppid=$1

	if [[ ! -e /proc/$ppid/cmdline ]];then
		echo 0
		return
	fi
	##print_screen_output "Marker"
	##print_screen_output "\$ppid='$ppid' -=- $(< /proc/$ppid/cmdline)"
	unset A_CMDL
	## note: need to figure this one out, and ideally clean it up and make it readable
	while read -d $'\0' L && [[ $i -lt 32 ]]
	do
		A_CMDL[i++]="$L" ## note: make sure this is valid - What does L mean? ##
	done < /proc/$ppid/cmdline
	##print_screen_output "\$i='$i'"
	if [[ $i -eq 0 ]];then
		A_CMDL[0]=$(< /proc/$ppid/cmdline)
		if [[ -n ${A_CMDL[0]} ]];then
			i=1
		fi
	fi
	CMDL_MAX=$i
	log_function_data "CMDL_MAX: $CMDL_MAX"
	eval $LOGFE
}

#### -------------------------------------------------------------------
#### get data types
#### -------------------------------------------------------------------
## create array of sound cards installed on system, and if found, use asound data as well
get_audio_data()
{
	eval $LOGFS
	local i='' alsa_data='' alsa_driver='' device_count='' lsusb_path=''
	local usb_proc_file='' array_count='' usb_id='' usb_data=''

	IFS=$'\n'
	# this first step handles the drivers for cases where the second step fails to find one
	device_count=$( echo "$Lspci_Data" | egrep -ic '(multimedia audio controller|audio device)' )
	if [[ $device_count -eq 1 ]] && [[ $B_ASOUND_DEVICE_FILE == 'true' ]];then
		alsa_driver=$( gawk -F ']: ' '
		BEGIN {
			IGNORECASE=1
		}
		# filtering out modems and usb devices like webcams, this might get a
		# usb audio card as well, this will take some trial and error
		$0 !~ /modem/ || $0 !~ /usb/ {
			driver=gensub( /^(.+)( - )(.+)$/, "\\1", 1, $2 )
			gsub(/^ +| +$/,"",driver)
			if ( driver != "" ){
				print driver
			}
		}'  $FILE_ASOUND_DEVICE )
		log_function_data 'cat' "$FILE_ASOUND_DEVICE"
	fi

	# this is to safeguard against line breaks from results > 1, which if inserted into following
	# array will create a false array entry. This is a hack, not a permanent solution.
	alsa_driver=$( echo $alsa_driver )
	# now we'll build the main audio data, card name, driver, and port. If no driver is found,
	# and if the first method above is not null, and one card is found, it will use that instead.
	A_AUDIO_DATA=( $( echo "$Lspci_Data" | gawk -F ': ' -v alsaDriver="$alsa_driver" '
	BEGIN {
		IGNORECASE=1
	}
	/multimedia audio controller|audio device/ {
		audioCard=gensub(/^[0-9a-f:.]+ [^:]+: (.+)$/,"\\1","g",$0)
		# The doublequotes are necessary because of the pipes in the variable.
		gsub(/'"$BAN_LIST_NORMAL"'/, "", audioCard)
		gsub(/,/, " ", audioCard)
		gsub(/^ +| +$/, "", audioCard)
		gsub(/ [ \t]+/, " ", audioCard)
		aPciBusId[audioCard] = gensub(/(^[0-9a-f:\.]+) [^:]+: .+$/,"\\1","g",$0)
		cards[audioCard]++

		# loop until you get to the end of the data block
		while (getline && !/^$/) {
			gsub( /,/, "", $0 )
			if (/driver in use/) {
				drivers[audioCard] = drivers[audioCard] gensub( /(.*): (.*)/ ,"\\2", "g" ,$0 ) ""
			}
			else if (/kernel modules:/) {
				modules[audioCard] = modules[audioCard] gensub( /(.*): (.*)/ ,"\\2" ,"g" ,$0 ) ""
			}
			else if (/I\/O/) {
				portsTemp = gensub(/\t*I\/O ports at (.*) \[.*\]/,"\\1","g",$0)
				ports[audioCard] = ports[audioCard] portsTemp " "
			}
		}
	}

	END {
		j=0
		for (i in cards) {
			useDrivers=""
			useModules=""
			usePorts=""
			usePciBusId=""
			 
			if (cards[i]>1) {
				a[j]=cards[i]"x "i
				if (drivers[i] != "") {
					useDrivers=drivers[i]
				}
			}
			else {
				a[j]=i
				# little trick here to try to catch the driver if there is
				# only one card and it was null, from the first test of asound/cards
				if (drivers[i] != "") {
					useDrivers=drivers[i]
				}
				else if ( alsaDriver != "" ) {
					useDrivers=alsaDriver
				}
			}
			if (ports[i] != "") {
				usePorts = ports[i]
			}
			if (modules[i] != "" ) {
				useModules = modules[i]
			}
			if ( aPciBusId[i] != "" ) {
				usePciBusId = aPciBusId[i]
			}
			# create array primary item for master array
			sub( / $/, "", usePorts ) # clean off trailing whitespace
			print a[j] "," useDrivers "," usePorts "," useModules "," usePciBusId
			j++
		}
	}') )

	# in case of failure of first check do this instead
	if [[ ${#A_AUDIO_DATA[@]} -eq 0 ]] && [[ $B_ASOUND_DEVICE_FILE == 'true' ]];then
		A_AUDIO_DATA=( $( gawk -F ']: ' '
		BEGIN {
			IGNORECASE=1
		}
		$1 !~ /modem/ && $2 !~ /modem/ {
			card=gensub( /^(.+)( - )(.+)$/, "\\3", 1, $2 )
			driver=gensub( /^(.+)( - )(.+)$/, "\\1", 1, $2 )
			if ( card != "" ){
				print card","driver
			}
		}'  $FILE_ASOUND_DEVICE ) )
	fi

	# alsa usb detection by damentz
	# for every sound card symlink in /proc/asound - display information about it
	lsusb_path=$( type -p lsusb )
	for usb_proc_file in /proc/asound/*
	do
		# if lsusb exists, the file is a symlink, and contains an important usb exclusive file: continue
		if [[ -n $lsusb_path && -L $usb_proc_file && -e $usb_proc_file/usbid  ]]; then
			# send error messages of lsusb to /dev/null as it will display a bunch if not a super user
			# also, find the contents of usbid in lsusb and print everything after the 7th word on the
			# corresponding line. Finally, strip out commas as they will change the driver :)
			usb_id=$( cat $usb_proc_file/usbid )
			usb_data=$( $lsusb_path -v 2>/dev/null | grep "$usb_id" )
			log_function_data 'raw' "usb_data:\n$usb_data"
			usb_data=$( gawk '{
				gsub( /,/, " ", $0 )
				for( i=7; i <= NF; i++ ) {
					printf( $i " " )
				}
			}' <<< "$usb_data" )
			# this method is interesting, it shouldn't work but it does
			#A_AUDIO_DATA=( "${A_AUDIO_DATA[@]}" "$usb_data,snd-usb-audio,," )
			# but until we learn why the above worked, I'm using this one, which is safer
			if [[ -n $usb_data ]];then
				array_count=${#A_AUDIO_DATA[@]}
				A_AUDIO_DATA[$array_count]="$usb_data,snd-usb-audio,,"
			fi
		fi
	done
	IFS="$ORIGINAL_IFS"

	# handle cases where card detection fails, like in PS3, where lspci gives no output, or headless boxes..
	if [[ ${#A_AUDIO_DATA[@]} -eq 0 ]];then
		A_AUDIO_DATA[0]='Failed to Detect Sound Card!'
	fi
	log_function_data "A_AUDIO_DATA: ${A_AUDIO_DATA[@]}"
	eval $LOGFE
}

get_audio_alsa_data()
{
	eval $LOGFS
	local alsa_data=''

	# now we'll get the alsa data if the file exists
	if [[ $B_ASOUND_VERSION_FILE == 'true' ]];then
		alsa_data=$( gawk '
			BEGIN {
				IGNORECASE=1
			}
			# some alsa strings have the build date in (...)
			# remove trailing . and remove possible second line if compiled by user
			$0 !~ /compile/ {
				gsub( "Driver | [(].*[)]|\.$","",$0 )
				gsub(/,/, " ", $0)
				gsub(/^ +| +$/, "", $0)
				gsub(/ [ \t]+/, " ", $0)
				if ( $0 != "" ){
					print $0
				}
		}' $FILE_ASOUND_VERSION )
		log_function_data 'cat' "$FILE_ASOUND_VERSION"
	fi
	echo "$alsa_data"
	log_function_data "alsa_data: $alsa_data"
	eval $LOGFE
}

## create A_CPU_CORE_DATA, currently with two values: integer core count; core string text
## return value cpu core count string, this helps resolve the multi redundant lines of old style output
get_cpu_core_count()
{
	eval $LOGFS
	if [[ $B_CPUINFO_FILE == 'true' ]]; then
		# load the A_CPU_TYPE_PCNT_CCNT core data array
		get_cpu_ht_multicore_smp_data
		## Because of the upcoming release of cpus with core counts over 6, a count of cores is given after Deca (10)
		# count the number of processors given
		local cpu_physical_count=${A_CPU_TYPE_PCNT_CCNT[1]}
		local cpu_core_count=${A_CPU_TYPE_PCNT_CCNT[2]}
		local cpu_type=${A_CPU_TYPE_PCNT_CCNT[0]}

		# match the numberic value to an alpha value
		case $cpu_core_count in
			1) cpu_alpha_count='Single';;
			2) cpu_alpha_count='Dual';;
			3) cpu_alpha_count='Triple';;
			4) cpu_alpha_count='Quad';;
			5) cpu_alpha_count='Penta';;
			6) cpu_alpha_count='Hexa';;
			7) cpu_alpha_count='Hepta';;
			8) cpu_alpha_count='Octa';;
			9) cpu_alpha_count='Ennea';;
			10) cpu_alpha_count='Deca';;
			*) cpu_alpha_count='Multi';;
		esac
		# create array, core count integer; core count string
		# A_CPU_CORE_DATA=( "$cpu_core_count" "$cpu_alpha_count Core$cpu_type" )
		A_CPU_CORE_DATA=( "$cpu_physical_count" "$cpu_alpha_count" "$cpu_type" "$cpu_core_count" )
	fi
	log_function_data "A_CPU_CORE_DATA: ${A_CPU_CORE_DATA[@]}"
	eval $LOGFE
}

## main cpu data collector
get_cpu_data()
{
	eval $LOGFS
	local i='' j='' cpu_array_nu='' a_cpu_working='' multi_cpu='' bits=''

	if [[ $B_CPUINFO_FILE == 'true' ]];then
		# stop script for a bit to let cpu slow down before parsing cpu /proc file
		sleep $CPU_SLEEP
		IFS=$'\n'
		A_CPU_DATA=( $( gawk -F': ' '
		BEGIN {
			IGNORECASE=1
		}
		# TAKE STRONGER NOTE: \t+ does NOT always work, MUST be [ \t]+
		# TAKE NOTE: \t+ will work for $FILE_CPUINFO, but SOME ARBITRARY FILE used for TESTING might contain SPACES!
		# Therefore PATCH to use [ \t]+ when TESTING!
		/^processor[ \t]+:/ {
			nr = $NF
		}

		/^model name|^cpu\t+:/ {
			gsub(/'"$BAN_LIST_NORMAL"'/, "", $NF )
			gsub(/'"$BAN_LIST_CPU"'/, "", $NF )
			gsub(/,/, " ", $NF)
			gsub(/^ +| +$/, "", $NF)
			gsub(/ [ \t]+/, " ", $NF)
			cpu[nr, "model"] = $NF
		}

		/^cpu MHz|^clock\t+:/ {
			if (!min) {
				min = $NF
			}
			else {
				if ($NF < min) {
					min = $NF
				}
			}

			if ($NF > max) {
				max = $NF
			}
			gsub(/MHZ/,"",$NF) ## clears out for cell cpu
			gsub(/.00[0]+$/,".00",$NF) ## clears out excessive zeros
			cpu[nr, "speed"] = $NF
		}

		/^cache size/ {
			cpu[nr, "cache"] = $NF
		}

		/^flags/ {
			cpu[nr, "flags"] = $NF
		}

		/^bogomips/ {
			cpu[nr, "bogomips"] = $NF
		}

		/vendor_id/ {
			gsub(/genuine|authentic/,"",$NF)
			cpu[nr, "vendor"] = tolower( $NF )
		}

		END {
			#if (!nr) { print ",,,"; exit } # <- should this be necessary or should bash handle that
			for ( i = 0; i <= nr; i++ ) {
				print cpu[i, "model"] "," cpu[i, "speed"] "," cpu[i, "cache"] "," cpu[i, "flags"] "," cpu[i, "bogomips"] ","  cpu[nr, "vendor"]
			}
			if (!min) {
				print "not found"
				exit
			}
			if (min != max) {
				printf("Min:%s%s Max:%s%s\n", min, "Mhz", max, "Mhz")
			}
			else {
				printf("%s %s\n", max, "Mhz")
			}
		}' $FILE_CPUINFO ) )
		log_function_data 'cat' "$FILE_CPUINFO"
	fi

	IFS="$ORIGINAL_IFS"
	log_function_data "A_CPU_DATA: ${A_CPU_DATA[@]}"
	eval $LOGFE
# 	echo getMainCpu: ${[@]}
}

## this is for counting processors and finding HT types
get_cpu_ht_multicore_smp_data()
{
	eval $LOGFS
	# in /proc/cpuinfo
	

	if [[ $B_CPUINFO_FILE == 'true' ]]; then
		A_CPU_TYPE_PCNT_CCNT=( $(
		gawk '
		BEGIN {
			FS=": "
			IGNORECASE = 1
			num_of_cores = 0
			num_of_processors = 0
			num_of_cpus = 0
			core_id[0]
			processor_id[0]
			cpu_id[0]
			type = "-"
			iter = 0
		}
		# array of logical processors, both HT and physical
		/^processor/ {
			processor_id[iter] = $NF
		}
		# array of physical cpus ids
		/^physical/ {
			cpu_id[iter] = $NF
		}
		# array of core ids
		/^core id/ {
			core_id[iter] = $NF
			iter++
		}
		END {
			## 	Look thru the array and filter same numbers.
			##	only unique numbers required
			## 	this is to get an accurate count
			##	we are only concerned with array length
			
			i = 0
			## count unique processors ##
			for ( i in processor_id ) {
				procHolder[processor_id[i]] = 1
			}
			for ( i in procHolder ) {				
				num_of_processors++
			}
			
			i = 0
			## count unique physical cpus ##
			for ( i in cpu_id ) {
				cpuHolder[cpu_id[i]] = 1
			}
			for ( i in cpuHolder ) {				
				num_of_cpus++
			}
			
			i = 0		
			## count unique cores ##
			for ( i in core_id ) {
				coreHolder[core_id[i]] = 1
			}
			for ( i in coreHolder ) {				
				num_of_cores++
			}
			
			####################################################################
			# 				algorithm
			# if > 1 processor && processor id (physical id) == core id then Hyperthreaded (HT)
			# if > 1 processor && processor id (physical id) != core id then Multi-Core Processors (MCP)
			# if > 1 processor && processor ids (physical id) > 1 then Multiple Processors (SMP)
			# if = 1 processor then single core/processor Uni-Processor (UP)
			if ( num_of_processors > 1 )
			{
				# non-multicore HT
				if ( num_of_processors == (num_of_cores * 2))
				{
					type = type "HT-"
				}
				# non-HT multi-core or HT multi-core
				if (( num_of_processors == num_of_cores) ||
					( num_of_cpus < num_of_cores))
				{
					type = type "MCP-"
				}
				# >1 cpu sockets active
				if ( num_of_cpus > 1 )
				{
					type = type "SMP-"
				}
			} else {
				type = type "UP-"
			}			
			
			print type " " num_of_cpus " " num_of_cores
		}
		' $FILE_CPUINFO 
		) )
	fi
	log_function_data "A_CPU_TYPE_PCNT_CCNT: ${A_CPU_TYPE_PCNT_CCNT[@]}"
	eval $LOGFE
}

# for more on distro id, please reference this python thread: http://bugs.python.org/issue1322
## return distro name/id if found
get_distro_data()
{
	eval $LOGFS
	local i='' j='' distro='' distro_file='' a_distro_glob=''

	# get the wild carded array of release/version /etc files if present
	shopt -s nullglob
	cd /etc
	a_distro_glob=(*[-_]{release,version})
	cd "$OLDPWD"
	shopt -u nullglob

	if [[ ${#a_distro_glob[@]} -eq 1 ]];then
		distro_file="${a_distro_glob}"
	# use the file if it's in the known good lists
	elif [[ ${#a_distro_glob[@]} -gt 1 ]];then
		for i in $DISTROS_DERIVED $DISTROS_PRIMARY
		do
			# Only echo works with ${var[@]}, not print_screen_output() or script_debugger()
			# This is a known bug, search for the word "strange" inside comments
			# echo "i='$i' a_distro_glob[@]='${a_distro_glob[@]}'"
			if [[ " ${a_distro_glob[@]} " == *" $i "* ]];then
				# Now lets see if the distro file is in the known-good working-lsb-list
				# if so, use lsb-release, if not, then just use the found file
				# this is for only those distro's with self named release/version files
				# because Mint does not use such, it must be done as below
				## this if statement requires the spaces and * as it is, else it won't work
				##
				if [[ " $DISTROS_LSB_GOOD " == *" ${i} "* ]] && [[ $B_LSB_FILE == 'true' ]];then
					distro_file='lsb-release'
				else
					distro_file="${i}"
				fi
				break
			fi
		done
	fi
	log_function_data "distro_file: $distro_file"
	# first test for the legacy antiX distro id file
	if [[ -e /etc/antiX ]];then
		distro="$( egrep -oi 'antix.*\.iso' <<< $( remove_erroneous_chars '/etc/antiX' ) | sed 's/\.iso//' )"
	# this handles case where only one release/version file was found, and it's lsb-release. This would
	# never apply for ubuntu or debian, which will filter down to the following conditions. In general
	# if there's a specific distro release file available, that's to be preferred, but this is a good backup.
	elif [[ -n $distro_file && -f $FILE_LSB_RELEASE && " $DISTROS_LSB_GOOD" == *" $distro_file "* ]];then
		distro=$( get_distro_lsb_data )
	elif [[ $distro_file == 'lsb-release' ]];then
		distro=$( get_distro_lsb_data )
	# then if the distro id file was found and it's not in the exluded primary distro file list, read it
	elif [[ -n $distro_file && -s /etc/$distro_file && " $DISTROS_EXCLUDE_LIST " != *" $distro_file "* ]];then
		distro=$( remove_erroneous_chars "/etc/$distro_file" )
	# otherwise try  the default debian/ubuntu /etc/issue file
	elif [[ -f /etc/issue ]];then
		# lsb gives more manageable and accurate output than issue, but mint should use issue for now
		# some bashism, boolean must be in parenthesis to work correctly, ie [[ $(boolean) ]] not [[ $boolean ]]
		if [[ $B_LSB_FILE == 'true' ]] && [[ -z $( grep -i 'mint' /etc/issue ) ]];then
			distro=$( get_distro_lsb_data )
		else
			distro=$( gawk '
			BEGIN {
				RS=""
			}
			{
				gsub(/\\[a-z]/, "")
				gsub(/,/, " ")
				gsub(/^ +| +$/, "")
				gsub(/ [ \t]+/, " ")
				print
			}' /etc/issue )
		fi
	fi

	if [[ ${#distro} -gt 80 ]] &&  [[ $B_HANDLE_CORRUPT_DATA != 'true' ]];then
		distro="${RED}/etc/${distro_file} corrupted, use -% to override${NORMAL}"
	fi
	## note: would like to actually understand the method even if it's not used
	# : ${distro:=Unknown distro o_O}
	## test for /etc/lsb-release as a backup in case of failure, in cases where > one version/release file
	## were found but the above resulted in null distro value
	if [[ -z $distro ]] && [[ $B_LSB_FILE == 'true' ]];then
		distro=$( get_distro_lsb_data )
	fi
	## finally, if all else has failed, give up
	if [[ -z $distro ]];then
		distro='Unknown distro o_O'
	fi

	# this handles an arch bug where /etc/arch-release is empty and /etc/issue is corrupted
	if [[ -n $( grep -i 'arch linux' <<< $distro ) ]];then
		distro='Arch Linux'
	fi

	echo "$distro"
	log_function_data "distro: $distro"
	eval $LOGFE
}

# args: $1 - optional, app, uses the app test, not being used now
get_distro_lsb_data()
{
	eval $LOGFS
	local distro=''

	if [[ $B_LSB_FILE == 'true' ]] && [[ $1 != 'app' ]];then
		distro=$( gawk -F '=' '
		BEGIN {
			IGNORECASE=1
		}
		# note: adding the spacing directly to variable to make sure distro output is null if not found
		/^DISTRIB_ID/ {
			gsub(/^ +| +$/, "", $NF)
			# this is needed because grep for "arch" is too loose to be safe
			if ( $NF == "arch" ) {
				distroId = "Arch Linux"
			}
			else if ( $NF != "n/a" ) {
				distroId = $NF " "
			}
		}
		/^DISTRIB_RELEASE/ {
			gsub(/^ +| +$/, "", $NF)
			if ( $NF != "n/a" ) {
				distroRelease = $NF " "
			}
		}
		/^DISTRIB_CODENAME/ {
			gsub(/^ +| +$/, "", $NF)
			if ( $NF != "n/a" ) {
				distroCodename = $NF " "
			}
		}
		END {
			print distroId distroRelease distroCodename
		}' $FILE_LSB_RELEASE )
		log_function_data 'cat' "$FILE_LSB_RELEASE"
	fi
	# this is HORRIBLY slow, but I don't know why, it runs fast in shell
# 	if [[  -n $( type -p lsb_release ) && $1 == 'app' ]];then
# 		distro=$( echo "$( lsb_release -irc )" | gawk '
# 		{ IGNORECASE=1 }
# 		/^Distributor ID/ {
# 			gsub(/^ +| +$/, "", $NF)
# 			distroId = $NF
# 		}
# 		/^Release/ {
# 			gsub(/^ +| +$/, "", $NF)
# 			distroRelease = $NF
# 		}
# 		/^Codename/ {
# 			gsub(/^ +| +$/, "", $NF)
# 			distroCodename = $NF
# 		}
# 		END {
# 			print distroId " " distroRelease " (" distroCodename ")"
# 		}' )
# 	fi

	echo $distro
	log_function_data "distro: $distro"
	eval $LOGFE
}

get_gpu_temp_data()
{
	local gpu_temp='' gpu_fan='' screens='' screen_nu='' gpu_temp_looper=''

	# we'll try for nvidia/ati, then add if more are shown
	if [[ -n $( type -p nvidia-settings ) ]];then
		# first get the number of screens
		screens=$( nvidia-settings -q screens | gawk '
		/:[0-9]\.[0-9]/ {
			screens=screens gensub(/(.*)(:[0-9]\.[0-9])(.*)/, "\\2", "1", $0) " "
		}
		END {
			print screens
		}
		' )
		# now we'll get the gpu temp for each screen discovered. The print out function
		# will handle removing screen data for single gpu systems
		for screen_nu in $screens
		do
			gpu_temp_looper=$( nvidia-settings -c $screen_nu -q GPUCoreTemp | gawk -F ': ' '
			BEGIN {
				IGNORECASE=1
				gpuTemp=""
				gpuTempWorking=""
			}
			/Attribute (.*)[0-9]+\.$/ {
				gsub(/\./, "", $2)
				if ( $2 ~ /^[0-9]+$/ ) {
					gpuTemp=gpuTemp $2 "C "
				}
			}
			END {
				print gpuTemp
			}'
			)
			screen_nu=$( cut -d ':' -f 2 <<< $screen_nu )
			gpu_temp="$gpu_temp$screen_nu:$gpu_temp_looper "
		done
	elif [[ -n $( type -p aticonfig ) ]];then
# 		gpu_temp=$( aticonfig --adapter=0 --od-gettemperature | gawk -F ': ' '
		gpu_temp=$( aticonfig --adapter=all --od-gettemperature | gawk -F ': ' '
		BEGIN {
			IGNORECASE=1
			gpuTemp=""
			gpuTempWorking=""
		}
		/Sensor (.*)[0-9\.]+ / {
			gpuTempWorking=gensub(/(.*) ([0-9\.]+) (.*)/, "\\2", "1", $2)
			if ( gpuTempWorking ~ /^[0-9\.]+$/ ) {
				gpuTemp=gpuTemp gpuTempWorking "C "
			}
		}
		END {
			print gpuTemp
		}'
		)
	fi
	
	if [[ -n $gpu_temp ]];then
		echo $gpu_temp
	fi
}

## create array of gfx cards installed on system
get_graphics_card_data()
{
	eval $LOGFS
	local i=''

	IFS=$'\n'
	A_GFX_CARD_DATA=( $( echo "$Lspci_Data" | gawk -F': ' '
	BEGIN {
		IGNORECASE=1
	}
	/vga compatible controller/ {
		gsub(/'"$BAN_LIST_NORMAL"'/, "", $NF)
		gsub(/,/, " ", $NF)
		gsub(/^ +| +$/, "", $NF)
		gsub(/ [ \t]+/, " ", $NF)
		print $NF
	}' ) )
	IFS="$ORIGINAL_IFS"
# 	for (( i=0; i < ${#A_GFX_CARD_DATA[@]}; i++ ))
# 	do
# 		A_GFX_CARD_DATA[i]=$( sanitize_characters BAN_LIST_NORMAL "${A_GFX_CARD_DATA[i]}" )
# 	done
	# handle cases where card detection fails, like in PS3, where lspci gives no output, or headless boxes..
	if [[ ${#A_GFX_CARD_DATA[@]} -eq 0 ]];then
		A_GFX_CARD_DATA[0]='Failed to Detect Video Card!'
	fi

	# GFXMEM is UNUSED at the moment, because it shows AGP aperture size, which is not necessarily equal to GFX memory..
	# GFXMEM="size=[$(echo "$Lspci_Data" | gawk '/VGA/{while (!/^$/) {getline;if (/size=[0-9][0-9]*M/) {size2=gensub(/.*\[size=([0-9]+)M\].*/,"\\1","g",$0);if (size<size2){size=size2}}}}END{print size2}')M]"
	log_function_data "A_GFX_CARD_DATA: ${A_GFX_CARD_DATA[@]}"
	eval $LOGFE
}

## create array of glx data
get_graphics_glx_data()
{
	eval $LOGFS
	if [[ $B_X_RUNNING == 'true' && $B_ROOT != 'true' ]];then
		IFS=$'\n'
		A_GLX_DATA=( $( glxinfo | gawk -F ': ' '
		# note: function declarations go before BEGIN? It appears so, confirm.
		# the real question here though is why this function is even here, seems
		# just to be a complicated way to pack/print a variable, but maybe the
		# original idea was to handle > 1 cases of detections I guess
		function join( arr, sep ) {
			s=""
			i=flag=0
			for ( i in arr ) {
				if ( flag++ ) {
					s = s sep
				}
				s = s i
			}
			return s
		}

		BEGIN {
			IGNORECASE=1
		}
		/opengl renderer/ {
			if ( $2 ~ /mesa/ ) {
				# Allow all mesas
# 				if ( $2 ~ / r[3-9][0-9][0-9] / ) {
					gsub(/'"$BAN_LIST_NORMAL"'/, "", $2)
					a[$2]
					# this counter failed in one case, a bug, and is not needed now
# 					f++
# 				}
				next
			}
			$2 && a[$2]
		}
		# dropping all conditions from this test to just show full mesa information
		# there is a user case where not f and mesa apply, atom mobo
		# /opengl version/ && ( f || $2 !~ /mesa/ ) {
		/opengl version/ {
			$2 && b[$2]
		}
		/direct rendering/ {
			$2 && c[$2]
		}
		END {
			printf( "%s\n%s\n%s\n", join( a, ", " ), join( b, ", " ), join( c, ", " ) )
		}' ) )
		IFS="$ORIGINAL_IFS"

		# GLXR=$(glxinfo | gawk -F ': ' 'BEGIN {IGNORECASE=1} /opengl renderer/ && $2 !~ /mesa/ {seen[$2]++} END {for (i in seen) {printf("%s ",i)}}')
		#    GLXV=$(glxinfo | gawk -F ': ' 'BEGIN {IGNORECASE=1} /opengl version/ && $2 !~ /mesa/ {seen[$2]++} END {for (i in seen) {printf("%s ",i)}}')
	fi
	log_function_data "A_GLX_DATA: ${A_GLX_DATA[@]}"
	eval $LOGFE
}

## return screen resolution / tty resolution
get_graphics_res_data()
{
	eval $LOGFS
	local screen_resolution='' 

	if [[ $B_X_RUNNING == 'true' && $B_ROOT != 'true' ]];then
		# Added the two ?'s , because the resolution is now reported without spaces around the 'x', as in
		# 1400x1050 instead of 1400 x 1050. Change as of X.org version 1.3.0
		screen_resolution=$( xrandr | gawk '
		/\*/ {
			res[++m] = gensub(/^.* ([0-9]+) ?x ?([0-9]+)[_ ].* ([0-9\.]+)\*.*$/,"\\1x\\2@\\3hz","g",$0)
		}
		END {
			for (n in res) {
				if (res[n] ~ /^[[:digit:]]+x[[:digit:]]+/) {
					line = line ? line ", " res[n] : res[n]
				}
			}
			if (line) {
				print(line)
			}
		}' )
		if [[ -z $screen_resolution ]];then
			screen_resolution=$( xdpyinfo | gawk '
			/dimensions/ {
				print $2
			}' )
		fi
	else
		screen_resolution=$( stty -F $( readlink /proc/$PPID/fd/0 ) size | gawk '{
			print $2"x"$1
		}' )
	fi
	echo "$screen_resolution"
	log_function_data "screen_resolution: $screen_resolution"
	eval $LOGFE
}

## for possible future data, not currently used
get_graphics_agp_data()
{
	eval $LOGFS
	local agp_module=''

	if [[ $B_MODULES_FILE == 'true' ]];then
		## not used currently
		agp_module=$( gawk '
		/agp/ && !/agpgart/ && $3 > 0 {
			print(gensub(/(.*)_agp.*/,"\\1","g",$1))
		}' $FILE_MODULES )
		log_function_data 'cat' "$FILE_MODULES"
	fi
	log_function_data "agp_module: $agp_module"
	eval $LOGFE
}

## create array of x vendor/version data
get_graphics_x_data()
{
	eval $LOGFS
	local x_vendor='' x_version=''

	if [[ $B_X_RUNNING == 'true' && $B_ROOT != 'true' ]];then
		# X vendor and version detection.
		x_vendor=$( xdpyinfo | gawk -F': +' '
		BEGIN {
			IGNORECASE=1
		}
		/vendor string/ {
			gsub(/the|inc|foundation|project|corporation/, "", $2)
			gsub(/,/, " ", $2)
			gsub(/^ +| +$/, "", $2)
			gsub(/ [ \t]+/, " ", $2)
			print $2
		}' )

		# new method added since radeon and X.org and the disappearance of <X server name> version : ...etc
		# Later on, the normal textual version string returned, e.g. like: X.Org version: 6.8.2
		# A failover mechanism is in place. (if $x_version is empty, the release number is parsed instead)
		x_version=$( xdpyinfo | gawk '
		/version:/ {
			print $NF
		}' )
		# this gives better output than the failure last case, which would only show:
		# for example: X.org: 1.9 instead of: X.org: 1.9.0
		if [[ -z $x_version ]];then
			x_version=$( get_x_version )
		fi
		if [[ -z $x_version ]];then
			x_version=$( xdpyinfo | gawk -F': +' '
			BEGIN {
				IGNORECASE=1
			}
			/vendor release number/ {
				gsub(/0+$/, "", $2)
				gsub(/0+/, ".", $2)
				print $2
			}' )
		fi
		
		# some distros, like fedora, report themselves as the xorg vendor, so quick check
		# here to make sure the vendor string includes Xorg in string
		if [[ -z $( grep -E '(X|xorg|x\.org)' <<< $x_vendor ) ]];then
			x_vendor="$x_vendor X.org"
		fi
		
		A_X_DATA[0]="$x_vendor"
		A_X_DATA[1]="$x_version"
	else
		x_version=$( get_x_version )
		if [[ -n $x_version ]];then
			x_vendor='X.org'
			A_X_DATA[0]="$x_vendor"
			A_X_DATA[1]="$x_version"
		fi
	fi
	log_function_data "A_X_DATA: ${A_X_DATA[@]}"
	eval $LOGFE
}
# if other tests fail, try this one, this works for root, out of X also
get_x_version()
{
	eval $LOGFS
	local x_exists=$( type -p X )
	local x_version=''
	
	if [[ -n $x_exists ]];then
		# note: MUST be this syntax: X -version 2>&1
		# otherwise X -version overrides everything and this comes out null.
		# two knowns id strings: X.Org X Server 1.7.5 AND Window System Version 1.7.5
		#X -version 2>&1 | gawk '/^X Window System Version/ { print $5 }'
		x_version=$( X -version 2>&1 | gawk '
		BEGIN {
			IGNORECASE=1
		}
		/x.org x server|X Window System Version/ {
			print $NF
		}' )
	fi
	echo $x_version
	log_function_data " x_version: $x_version"
	eval $LOGFE
}

# this gets just the raw data, total space/percent used and disk/name/per disk capacity
get_hdd_data_basic()
{
	eval $LOGFS
	local hdd_used=''
	local hdd_data="$( df --exclude-type=aufs --exclude-type=squashfs --exclude-type=unionfs --exclude-type=devtmpfs --exclude-type=tmpfs --exclude-type=iso9660 )"
	log_function_data 'raw' "hdd_data:\n$hdd_data"
	
	hdd_used=$( echo "$hdd_data" | gawk '
	# also handles odd dm-1 type, from lvm
	/^\/dev\/(mapper\/|[hs]d[a-z][0-9]+|dm[-]?[0-9]+)/ {
		# this handles the case where the first item is too long
		# and makes df wrap output to next line, so here we advance
		# it to the next line for that single case
		if ( NF < 5 && $0 !~ /.*\%/ ) {
			getline
		}
		# if the first item caused a wrap, use one less than standard
		# testing for the field with % in it, ie: 34%, then go down from there
		# this also protects against cases where the mount point has a space in the
		# file name, thus breaking going down from $NF directly.
		if ( $4 ~ /.*\%/ ) {
			used += $2
		}
		# otherwise use standard
		else if ( $5 ~ /.*\%/ ) {
			used += $3
		}
		# and if this is not detected, give up, we need user data to debug
		else {
			next
		}
	}
	END {
		print used
	}' )

	if [[ -z $hdd_used ]];then
		hdd_used='na'
	fi
	log_function_data "hdd_used: $hdd_used"
	# create the initial array strings:
	# disk-dev, capacity, name, usb or not
	# final item is the total of the disk
	IFS=$'\n'

	if [[ $B_PARTITIONS_FILE == 'true' ]];then
		A_HDD_DATA=( $(
		gawk -v hddused="$hdd_used" '
		/[hs]d[a-z]$/ {
			driveSize = $(NF - 1)*1024/1000**3
			gsub(/,/, " ", driveSize)
			gsub(/^ +| +$/, "", driveSize)
			printf( $NF",%.1fGB,,\n", driveSize )
		}
		# See http://lanana.org/docs/device-list/devices-2.6+.txt for major numbers used below
		# $1 ~ /^(3|22|33|8)$/ && $2 % 16 == 0  {
		#	size += $3
		# }
		# special case from this data: 8     0  156290904 sda
		$1 ~ /^(3|22|33|8)$/ && $NF ~ /[hs]d[a-z]$/ && ( $2 % 16 == 0 || $2 % 16 == 8 ) {
			size += $3
		}

		END {
			size = size*1024/1000**3                   # calculate size in GB size
			workingUsed = hddused*1024/1000**3         # calculate workingUsed in GB used
			# this handles a special case with livecds where no hdd_used is detected
			if ( size > 0 && hddused == "na" ) {
				size = sprintf( "%.1f", size )
				print size "GB,-"
			}
			else if ( size > 0 && workingUsed > 0 ) {
				diskUsed = workingUsed*100/size  # calculate used percentage
				diskUsed = sprintf( "%.1f", diskUsed )
				size = sprintf( "%.1f", size )
				print size "GB," diskUsed "% used"
			}
			else {
				print "NA,-" # print an empty array, this will be further handled in the print out function
			}
		}' $FILE_PARTITIONS ) )
 		log_function_data 'cat' "$FILE_PARTITIONS"
	fi
	IFS="$ORIGINAL_IFS"
	log_function_data "A_HDD_DATA: ${A_HDD_DATA[@]}"
	eval $LOGFE
}

## fills out the A_HDD_DATA array with disk names
get_hard_drive_data_advanced()
{
	eval $LOGFS
	local a_temp_working='' a_temp_scsi='' temp_holder='' temp_name='' i='' j=''
	local sd_ls_by_id='' ls_disk_by_id='' usb_exists=''

	## check for all ide type drives, non libata, only do it if hdx is in array
	## this is now being updated for new /sys type paths, this may handle that ok too
	if [[ -n $( egrep 'hd[a-z]' <<< ${A_HDD_DATA[@]} ) ]];then
		# remember, we're using the last array item to store the total size of disks
		for (( i=0; i < ${#A_HDD_DATA[@]} - 1; i++ ))
		do
			IFS=","
			a_temp_working=( ${A_HDD_DATA[i]} )
			IFS="$ORIGINAL_IFS"
			if [[ -n $( egrep '^hd[a-z]' <<< ${a_temp_working[0]} ) ]];then
				if [[ -e /proc/ide/${a_temp_working[0]}/model ]];then
					a_temp_working[2]="$( remove_erroneous_chars /proc/ide/${a_temp_working[0]}/model )"
				else
					a_temp_working[2]="Name n/a"
				fi
				# these loops are to easily extend the cpu array created in the gawk script above with more fields per cpu.
				for (( j=0; j < ${#a_temp_working[@]}; j++ ))
				do
					if [[ $j -gt 0 ]];then
						A_HDD_DATA[i]="${A_HDD_DATA[i]},${a_temp_working[$j]}"
					else
						A_HDD_DATA[i]="${a_temp_working[$j]}"
					fi
				done
			fi
		done
	fi

	## then handle libata names
	# first get the ata device names, put them into an array
	IFS=$'\n'
	if [[ $B_SCSI_FILE == 'true' ]]; then
		a_temp_scsi=( $( gawk  '
		BEGIN {
			IGNORECASE=1
		}
		/host/ {
			getline a[$0]
			getline b[$0]
		}
		END {
			for (i in a) {
				if (b[i] ~ / *type: *direct-access.*/) {
					#c=gensub(/^ *vendor: (.+) +model: (.+) +rev: (.+)$/,"\\1 \\2 \\3","g",a[i])
					#c=gensub( /^ *vendor: (.+) +model: (.+) +rev:.*$/,"\\1 \\2","g",a[i] )
					# the vendor: string is useless, and is a bug, ATA is not a vendor for example
					c=gensub( /^ *vendor: (.+) +model: (.+) +rev:.*$/, "\\2", "g", a[i] )
					gsub(/,/, " ", c)
					gsub(/^ +| +$/, "", c)
					gsub(/ [ \t]+/, " ", c)
					#print a[i]
					# we actually want this data, so leaving this off for now
# 					if (c ~ /\<flash\>|\<pendrive\>|memory stick|memory card/) {
# 						continue
# 					}
					print c
				}
			}
		}' $FILE_SCSI ) )
		log_function_data 'cat' "$FILE_SCSI"
	fi
	IFS="$ORIGINAL_IFS"

	## then we'll loop through that array looking for matches.
	if [[ -n $( egrep 'sd[a-z]' <<< ${A_HDD_DATA[@]} ) ]];then
		# first pack the main ls variable so we don't have to keep using ls /dev...
		ls_disk_by_id="$( ls -l /dev/disk/by-id )"
		for (( i=0; i < ${#A_HDD_DATA[@]} - 1; i++ ))
		do
			if [[ -n $( egrep '^sd[a-z]' <<< ${A_HDD_DATA[$i]} ) ]];then
				IFS=","
				a_temp_working=( ${A_HDD_DATA[$i]} )
				IFS="$ORIGINAL_IFS"
				# /sys/block/[sda,hda]/device/model
				# this is handles the new /sys data types first
				if [[ -e /sys/block/${a_temp_working[0]}/device/model ]];then
					temp_name="$( remove_erroneous_chars /sys/block/${a_temp_working[0]}/device/model )"
					temp_name=$( tr ' ' '_' <<< $temp_name | cut -d '-' -f 1 )
				elif [[ ${#a_temp_scsi[@]} -gt 0 ]];then
					for (( j=0; j < ${#a_temp_scsi[@]}; j++ ))
					do
						## ok, ok, it's incomprehensible, search /dev/disk/by-id for a line that contains the
						# discovered disk name AND ends with the correct identifier, sdx
						# get rid of whitespace for some drive names and ids, and extra data after - in name
						temp_name=$( tr ' ' '_' <<< ${a_temp_scsi[$j]} | cut -d '-' -f 1 )
						sd_ls_by_id=$( egrep -m1 ".*$temp_name.*${a_temp_working[0]}$" <<< "$ls_disk_by_id" )

						if [[ -n $sd_ls_by_id ]];then
							temp_name=${a_temp_scsi[$j]}
							break
						else
							# test to see if we can get a better name output when null
							if [[ -n $temp_name ]];then
								temp_name=$temp_name
							fi
						fi
					done
				fi
				
				if [[ -z $temp_name ]];then
					temp_name="Name n/a"
				else 
					usb_exists=$( egrep -m1 "usb-.*$temp_name.*${a_temp_working[0]}$" <<< "$ls_disk_by_id" )
					if [[ -n $usb_exists ]];then
						a_temp_working[3]='USB'
					fi
				fi
				a_temp_working[2]=$temp_name
				# these loops are to easily extend the cpu array created in the gawk script above with more fields per cpu.
				for (( j=0; j < ${#a_temp_working[@]}; j++ ))
				do
					if [[ $j -gt 0 ]];then
						A_HDD_DATA[i]="${A_HDD_DATA[i]},${a_temp_working[$j]}"
					else
						A_HDD_DATA[i]="${a_temp_working[$j]}"
					fi
				done
			fi
		done
		unset ls_disk_by_id # and then let's dump the data we don't need
	fi
	log_function_data "A_HDD_DATA: ${A_HDD_DATA[@]}"
	eval $LOGFE
}

# a few notes, normally hddtemp requires root, but you can set user rights in /etc/sudoers.
# args: $1 - /dev/<disk> to be tested for
get_hdd_temp_data()
{
	eval $LOGFS
	local hdd_temp='' sudo_command='' 

	if [[ $B_HDDTEMP_TESTED != 'true' ]];then
		B_HDDTEMP_TESTED='true'
		HDDTEMP_PATH=$( type -p hddtemp )
	fi
	if [[ $B_SUDO_TESTED != 'true' ]];then
		B_SUDO_TESTED='true'
		SUDO_PATH=$( type -p sudo )
	fi
	
	if [[ -n $HDDTEMP_PATH && -n $1 ]];then
		# only use sudo if not root, -n option requires sudo -V 1.7 or greater. sudo will just error out
		# which is the safest course here for now, otherwise that interactive sudo password thing is too annoying
		# important: -n makes it non interactive, no prompt for password
		if [[ $B_ROOT != 'true' && -n $SUDO_PATH ]];then
			sudo_command='sudo -n '
		fi
		# this will fail if regular user and no sudo present, but that's fine, it will just return null
		hdd_temp=$( eval $sudo_command $HDDTEMP_PATH -nq -u C $1 )
		if [[ -n $hdd_temp && -n $( grep -E '^([0-9]+)$' <<< $hdd_temp ) ]];then
			echo $hdd_temp
		fi
	fi
	eval $LOGFE
}

get_lspci_data()
{
	eval $LOGFS
	local lspci_data="$( lspci -v | gawk '{
		gsub(/\(prog-if[^)]*\)/,"")
		print
	}' )"
	
	echo "$lspci_data"
	log_function_data 'raw' "lspci_data:\n$lspci_data"
	eval $LOGFE
}

## return memory used/installed
get_memory_data()
{
	eval $LOGFS
	local memory=''
	if [[ $B_MEMINFO_FILE == 'true' ]];then
		memory=$( gawk '
		/^MemTotal:/ {
			tot = $2
		}
		/^(MemFree|Buffers|Cached):/ {
			notused+=$2
		}
		END {
			used = tot-notused
			printf("%.1f/%.1fMB\n", used/1024, tot/1024)
		}' $FILE_MEMINFO )
		log_function_data 'cat' "$FILE_MEMINFO"
	fi
	echo "$memory"
	log_function_data "memory: $memory"
	eval $LOGFE
}

# process and return module version data
get_module_version_number()
{
	eval $LOGFS
	local module_version=''
	
	if [[ $B_MODINFO_TESTED != 'true' ]];then
		B_MODINFO_TESTED='true'
		MODINFO_PATH=$( type -p modinfo )
	fi

	if [[ -n $MODINFO_PATH ]];then
		module_version=$( $MODINFO_PATH $1 2>/dev/null | gawk '
		BEGIN {
			IGNORECASE=1
		}
		/^version/ {
			gsub(/,/, " ", $2)
			gsub(/^ +| +$/, "", $2)
			gsub(/ [ \t]+/, " ", $2)
			print $2
		}
		' )
	fi

	echo "$module_version"
	log_function_data "module_version: $module_version"
	eval $LOGFE
}

## create array of network cards
get_networking_data()
{
	eval $LOGFS
	
	IFS=$'\n'
	A_NETWORK_DATA=( $( echo "$Lspci_Data" | gawk '
	BEGIN {
		IGNORECASE=1
		counter=0 # required to handle cases of > 1 instance of the same chipset
	}
	/^[0-9a-f:.]+ (ethernet|network) (controller|bridge)/ || /^[0-9a-f:.]+ [^:]+: .*(ethernet|network).*$/ {
		nic=gensub(/^[0-9a-f:\.]+ [^:]+: (.+)$/,"\\1","g",$0)
		gsub(/realtek semiconductor/, "Realtek", nic)
		gsub(/davicom semiconductor/, "Davicom", nic)
		# The doublequotes are necessary because of the pipes in the variable.
		gsub(/'"$BAN_LIST_NORMAL"'/, "", nic)
		gsub(/,/, " ", nic)
		gsub(/^ +| +$/, "", nic)
		gsub(/ [ \t]+/, " ", nic)
		# construct a unique string ending for each chipset detected, this allows for
		# multiple instances of the same exact chipsets, ie, dual gigabit 
		nic = nic "~~" counter++
		aPciBusId[nic] = gensub(/(^[0-9a-f:\.]+) [^:]+: .+$/,"\\1","g",$0)
		# I do not understand why incrementing a string index makes sense? 
		eth[nic]++ 
		while ( getline && !/^$/ ) {
			gsub(/,/, "", $0)
			if ( /I\/O/ ) {
				ports[nic] = ports[nic] $4 " "
			}
			if ( /driver in use/ ) {
				drivers[nic] = drivers[nic] gensub( /(.*): (.*)/ ,"\\2" ,"g" ,$0 ) ""
			}
			else if ( /kernel modules/ ) {
				modules[nic] = modules[nic] gensub( /(.*): (.*)/ ,"\\2" ,"g" ,$0 ) ""
			}
		}
	}

	END {
		j=0
		for (i in eth) {
			useDrivers=""
			usePorts=""
			useModules=""
			usePciBusId=""
			if ( eth[i] > 1 ) {
				a[j] = eth[i] "x " i
			}
			else {
				a[j] = i
			}	
			## note: this loses the plural ports case, is it needed anyway?
			if ( ports[i] != "" ) {
				usePorts = ports[i]
			}
			if ( drivers[i] != "" ) {
				useDrivers = drivers[i]
			}
			if ( modules[i] != "" ) {
				useModules = modules[i]
			}
			if ( aPciBusId[i] != "" ) {
				usePciBusId = aPciBusId[i]
			}
			# create array primary item for master array
			# and strip out the counter again, this handled dual cards with same chipset
			sub( /~~[0-9]+$/, "", a[j] )
			sub( / $/, "", usePorts ) # clean off trailing whitespace
			print a[j] "," useDrivers "," usePorts "," useModules, "," usePciBusId
			j++
		}
	}') )
	IFS="$ORIGINAL_IFS"
	log_function_data "A_NETWORK_DATA: ${A_NETWORK_DATA[@]}"
	eval $LOGFE
}

get_networking_wan_ip_data()
{
	eval $LOGFS
	local ip=''

	# get ip using wget redirect to stdout. This is a clean, text only IP output url.
	ip=$( wget -q -O - http://smxi.org/opt/ip.php | gawk -F 'is: ' '{
		#gsub("\n","",$2")
		print $2
	}' )

	if [[ -z $ip ]];then
		ip='None Detected!'
	fi
	echo "$ip"
	log_function_data "ip: $ip"
	eval $LOGFE
}

get_networking_local_ip_data()
{
	eval $LOGFS
	
	local ifconfig_path=$( type -p ifconfig )
	
	# lack of ifconfig will throw an error only upon it's usage
	if [[ -n $ifconfig_path ]];then
		IFS=$'\n'
		A_INTERFACES_DATA=( $( $ifconfig_path | gawk '
		BEGIN {
			IGNORECASE=1
		}
		$0 !~ /^lo/ {
			# not clear on why inet is coming through, but this gets rid of it
			# as first line item.
			interface = $1
			gsub(/,/, " ", interface)
			gsub(/^ +| +$/, "", interface)
			gsub(/ [ \t]+/, " ", interface)

			aInterfaces[interface]++
			while (getline && !/^$/) {
				if (/inet addr:/) {
					ipAddresses[interface] = gensub( /addr:([0-9\.]+)/, "\\1", "g", $2 )
				}
			}
		}

		END {
			j=0
			for (i in aInterfaces) {
				useInterfaceIp = ""
				a[j] = i
				if (ipAddresses[i] != "") {
					useInterfaceIp = ipAddresses[i]
				}
				# create array primary item for master array
				# tested needed to avoid bad data from above, if null it is garbage
				# this is the easiest way to handle junk I found, improve if you want
				if ( useInterfaceIp != "" ) {
					print a[j] "," useInterfaceIp
				}
				j++
			}
		}') )
		IFS="$ORIGINAL_IFS"
	else
		A_INTERFACES_DATA=( "Interfaces tool requires missing app: ifconfig" )
	fi
	log_function_data "A_INTERFACES_DATA: ${A_INTERFACES_DATA[@]}"
	eval $LOGFE
}

get_partition_data()
{
	eval $LOGFS
	
	local a_partition_working='' dev_item=''
	#local excluded_file_types='--exclude-type=aufs --exclude-type=tmpfs --exclude-type=iso9660'
	# df doesn't seem to work in script with variables like at the command line
	local main_partition_data="$( df -h -T --exclude-type=aufs --exclude-type=squashfs --exclude-type=unionfs --exclude-type=devtmpfs --exclude-type=tmpfs --exclude-type=iso9660 )"
	local swap_data="$( swapon -s )"
	# set dev disk label/uuid data globals
	get_partition_uuid_label_data 'label'
	get_partition_uuid_label_data 'uuid'
	
	log_function_data 'raw' "main_partition_data:\n$main_partition_data\n\nswap_data:\n$swap_data"
	
	IFS=$'\n'
	# sample line: /dev/sda2     ext3     15G  8.9G  4.9G  65% /home
	# $NF = partition name; $(NF - 4) = partition size; $(NF - 3) = used, in gB; $(NF - 1) = percent used
	## note: by subtracting from the last field number NF, we avoid a subtle issue with LVM df output, where if
	## the first field is too long, it will occupy its own line, this way we are getting only the needed data
	A_PARTITION_DATA=( $( echo "$main_partition_data" | gawk '
	BEGIN {
		IGNORECASE=1
	}
	# this has to be nulled for every iteration so it does not retain value from last iteration
	devBase=""
	# this is required because below we are subtracting from NF, so it has to be > 5
	# the real issue is long file system names that force the wrap of df output: //fileserver/main
	# but we still need to handle more dynamically long space containing file names, but later.
	( NF < 6 ) && ( $0 !~ /[0-9]+\%/ ) {
		# set the dev location here for cases of wrapped output
		if ( NF == 1 ){
			devBase=gensub( /^(\/dev\/)(.+)$/, "\\2", 1, $1 )
		}
		getline
	}
	# next set devBase if it didn not get set above here
	( $1 ~ /^\/dev\// ) && ( devBase == "" ) {
		devBase=gensub( /^(\/dev\/)(.+)$/, "\\2", 1, $1 )
	}
	# this handles yet another fredforfaen special case where a mounted drive
	# has the search string in its name
	$NF ~ /^\/$|^\/boot$|^\/var$|^\/home$|^\/tmp$|^\/usr$/ {
		print $NF "," $(NF - 4) "," $(NF - 3) "," $(NF - 1) ",main," $(NF - 5) "," devBase 
	}
	# skip all these, including the first, header line. Use the --exclude-type
	# to handle new filesystems types we do not want listed here
	$NF !~ /^\/$|^\/boot$|^\/var$|^\/home$|^\/tmp$|^\/usr$|^filesystem/ {
		# this is to avoid file systems with spaces in their names, that will make
		# the test show the wrong data in each of the fields, if no x%, then do not use
		# using 3 cases, first default, standard, 2nd, 3rd, handles one and two spaces in name
		if ( $(NF - 1) ~ /[0-9]+\%/ ) {
			print $NF "," $(NF - 4) "," $(NF - 3) "," $(NF - 1) ",secondary," $(NF - 5) "," devBase 
		}
		# these two cases construct the space containing name
		else if ( $(NF - 2) ~ /[0-9]+\%/ ) {
			print $(NF - 1) " " $NF "," $(NF - 5) "," $(NF - 4) "," $(NF - 2) ",secondary," $(NF - 6) "," devBase
		}
		else if ( $(NF - 3) ~ /[0-9]+\%/ ) {
			print $(NF - 2) " " $(NF - 1) " " $NF "," $(NF - 6) "," $(NF - 5) "," $(NF - 3) ",secondary," $(NF - 7) "," devBase 
		}
	}
	' )
	
	# now add the swap partition data, don't want to show swap files, just partitions,
	# though this can include /dev/ramzswap0. Note: you can also use /proc/swaps for this
	# data, it's the same exact output as swapon -s
	$( echo "$swap_data" | gawk '
	BEGIN {
		swapCounter = 1
	}
	/^\/dev/ {
		size = sprintf( "%.2f", $3*1024/1000**3 )
		devBase = gensub( /^(\/dev\/)(.+)$/, "\\2", 1, $1 )
		used = sprintf( "%.2f", $4*1024/1000**3 )
		percentUsed = sprintf( "%.0f", ( $4/$3 )*100 )
		print "swap-" swapCounter "," size "GB," used "GB," percentUsed "\%,main," "swap," devBase
		swapCounter = ++swapCounter
	}' ) )
	IFS="$ORIGINAL_IFS"
	
	# now we'll handle some fringe cases where irregular df -hT output shows /dev/disk/.. instead of 
	# /dev/h|sdxy type data for column 1, . A_PARTITION_DATA[6]
	for (( i=0; i < ${#A_PARTITION_DATA[@]}; i++ ))
	do
		IFS=","
		a_partition_working=( ${A_PARTITION_DATA[i]} )
		IFS="$ORIGINAL_IFS"
		dev_item='' # reset each loop
		# note: for swap this will already be set
		if [[ -n $( grep -E '(by-uuid|by-label)' <<< ${a_partition_working[6]} ) ]];then
			if [[ -n $DEV_DISK_UUID ]];then
				dev_item=$( echo "$DEV_DISK_UUID" | gawk '
					/'$( basename ${a_partition_working[6]} )'/ {
						item=gensub( /..\/..\/(.+)/, "\\1", 1, $NF )
						print item
					}' )
			fi
			# if we didn't find anything for uuid try label
			if [[ -z $dev_item && -n $DEV_DISK_LABEL ]];then
				dev_item=$( echo "$DEV_DISK_LABEL" | gawk '
					/'$( basename ${a_partition_working[6]} )'/ {
						item=gensub( /..\/..\/(.+)/, "\\1", 1, $NF )
						print item
					}' )
			fi
			if [[ -n $dev_item ]];then
				# assemble everything we could get for dev/h/dx, label, and uuid
				IFS=","
				A_PARTITION_DATA[i]=${a_partition_working[0]}","${a_partition_working[1]}","${a_partition_working[2]}","${a_partition_working[3]}","${a_partition_working[4]}","${a_partition_working[5]}","$dev_item
				IFS="$ORIGINAL_IFS"
			fi
		fi
	done

	if [[ $B_SHOW_LABELS == 'true' || $B_SHOW_UUIDS == 'true' ]];then
		get_partition_data_advanced
	fi
	log_function_data "A_PARTITION_DATA: ${A_PARTITION_DATA[@]}"
	eval $LOGFE
}

# first get the locations of the mount points for label/uuid detection
get_partition_data_advanced()
{
	eval $LOGFS
	local a_partition_working='' dev_partition_data=''
	local dev_item='' dev_label='' dev_uuid=''
	local mount_point=''
	# set dev disk label/uuid data globals
	get_partition_uuid_label_data 'label'
	get_partition_uuid_label_data 'uuid'

	if [[ $B_MOUNTS_FILE == 'true' ]];then
		for (( i=0; i < ${#A_PARTITION_DATA[@]}; i++ ))
		do
			IFS=","
			a_partition_working=( ${A_PARTITION_DATA[i]} )
			IFS="$ORIGINAL_IFS"
			
			# note: for swap this will already be set
			if [[ -z ${a_partition_working[6]} ]];then
				mount_point=$( sed 's|/|\\/|g'  <<< ${a_partition_working[0]} )
				#echo mount_point $mount_point
				dev_partition_data=$( gawk '
				BEGIN {
					IGNORECASE = 1
					partition = ""
					partTemp = ""
				}
				# trying to handle space in name
# 				gsub( /\\040/, " ", $0 )
				/[ \t]'$mount_point'[ \t]/ && $1 != "rootfs" {
					# initialize the variables
					label = ""
					uuid = ""

					# slice out the /dev
					partition=gensub( /^(\/dev\/)(.+)$/, "\\2", 1, $1 )
					# label and uuid can occur for root, set partition to null now
					if ( partition ~ /by-label/ ) {
						label=gensub( /^(\/dev\/disk\/by-label\/)(.+)$/, "\\2", 1, $1 )
						partition = ""
					}
					if ( partition ~ /by-uuid/ ) {
						uuid=gensub( /^(\/dev\/disk\/by-uuid\/)(.+)$/, "\\2", 1, $1 )
						partition = ""
					}

					# handle /dev/root for / id
					if ( partition == "root" ) {
						# if this works, great, otherwise, just set this to null values
						partTemp="'$( readlink /dev/root 2>/dev/null )'"
						if ( partTemp != "" ) {
							if ( partTemp ~ /[hs]d[a-z][0-9]/ ) {
								partition=gensub( /^(\/dev\/)(.+)$/, "\\2", 1, partTemp )
							}
							else if ( partTemp ~ /by-uuid/ ) {
								uuid=gensub( /^(\/dev\/disk\/by-uuid\/)(.+)$/, "\\2", 1, partTemp )
								partition="" # set null to let real location get discovered
							}
							else if ( partTemp ~ /by-label/ ) {
								label=gensub( /^(\/dev\/disk\/by-label\/)(.+)$/, "\\2", 1, partTemp )
								partition="" # set null to let real location get discovered
							}
						}
						else {
							partition = ""
							label = ""
							uuid = ""
						}
					}
					print partition "," label "," uuid
				}'	$FILE_MOUNTS )

				# assemble everything we could get for dev/h/dx, label, and uuid
				IFS=","
				A_PARTITION_DATA[i]=${a_partition_working[0]}","${a_partition_working[1]}","${a_partition_working[2]}","${a_partition_working[3]}","${a_partition_working[4]}","${a_partition_working[5]}","$dev_partition_data
				IFS="$ORIGINAL_IFS"
			fi
			## now we're ready to proceed filling in the data
			IFS=","
			a_partition_working=( ${A_PARTITION_DATA[i]} )
			IFS="$ORIGINAL_IFS"

			dev_item=${a_partition_working[6]}
			dev_label=${a_partition_working[7]}
			dev_uuid=${a_partition_working[8]}
			
			# then if dev data/uuid is incomplete, try to get missing piece
			# it's more likely we'll get a uuid than a label. But this should get the
			# dev item set no matter what, so then we can get the rest of any missing data
			# first we'll get the dev_item if it's missing
			if [[ -n $DEV_DISK_UUID ]] && [[ -z $dev_item && -n $dev_uuid ]];then
				dev_item=$( echo "$DEV_DISK_UUID" | gawk '
					/'$dev_uuid'/ {
						item=gensub( /..\/..\/(.+)/, "\\1", 1, $NF )
						print item
					}' )
			elif [[ -n $DEV_DISK_LABEL ]] && [[ -z $dev_item && -n $dev_label ]];then
				dev_item=$( echo "$DEV_DISK_LABEL" | gawk '
					# first we need to change space x20 in by-label back to a real space
					#gsub( /x20/, " ", $0 )
					# then we can see if the string is there
					/'$dev_label'/ {
						item=gensub( /..\/..\/(.+)/, "\\1", 1, $NF )
						print item
					}' )
			fi
			if [[ -n $DEV_DISK_UUID ]] && [[ -n $dev_item && -z $dev_uuid ]];then
				dev_uuid=$( echo "$DEV_DISK_UUID" | gawk '
				/'$dev_item'$/ {
					print $(NF - 2)
				}' )
			fi
			if [[ -n $DEV_DISK_LABEL ]] && [[ -n $dev_item && -z $dev_label ]];then
				dev_label=$( echo "$DEV_DISK_LABEL" | gawk '
				/'$dev_item'/ {
					print $(NF - 2)
				}' )
			fi

			# assemble everything we could get for dev/h/dx, label, and uuid
			IFS=","
			A_PARTITION_DATA[i]=${a_partition_working[0]}","${a_partition_working[1]}","${a_partition_working[2]}","${a_partition_working[3]}","${a_partition_working[4]}","${a_partition_working[5]}","$dev_item","$dev_label","$dev_uuid
			IFS="$ORIGINAL_IFS"
		done
		log_function_data 'cat' "$FILE_MOUNTS"
	fi
	log_function_data "A_PARTITION_DATA: ${A_PARTITION_DATA[@]}"
	eval $LOGFE
}

	
# args: $1 - uuid/label
get_partition_uuid_label_data()
{
	eval $LOGFS
	
	# only run these tests once per directory to avoid excessive queries to fs
	case $1 in
		label)
			if [[ $B_LABEL_SET != 'true' ]];then
				if [[ -d /dev/disk/by-label ]];then
					DEV_DISK_LABEL="$( ls -l /dev/disk/by-label )"
				fi
				B_LABEL_SET='true'
			fi
			;;
		uuid)
			if [[ $B_UUID_SET != 'true' ]];then
				if [[ -d /dev/disk/by-uuid ]];then
					DEV_DISK_UUID="$( ls -l /dev/disk/by-uuid )"
				fi
				B_UUID_SET='true'
			fi
			;;
	esac
	log_function_data 'raw' "DEV_DISK_LABEL:\n$DEV_DISK_LABEL\n\nDEV_DISK_UUID:\n$DEV_DISK_UUID"
	# debugging section, uncomment to insert user data
# 	DEV_DISK_LABEL='
#
# '
# DEV_DISK_UUID='
#
# '
	eval $LOGFE
}

# args: $1 - type cpu/mem 
get_ps_data()
{
	eval $LOGFS
	local array_length='' reorder_temp='' i=0 head_tail='' sort_type=''
	
	# bummer, have to make it more complex here because of reverse sort
	# orders in output, pesky lack of support of +rss in old systems
	case $1 in
		mem)
			head_tail='head'
			sort_type='-rss'
			;;
		cpu)
			head_tail='tail'
			sort_type='%cpu'
			;;
	esac
	
	# throttle potential irc abuse
	if [[ $B_RUNNING_IN_SHELL != 'true' && $PS_COUNT -gt 5 ]];then
		PS_THROTTLED=$PS_COUNT
		PS_COUNT=5
	fi

	IFS=$'\n'
	# note that inxi can use a lot of cpu, and can actually show up here as the script runs
	A_PS_DATA=( $( ps aux --sort $sort_type | grep -Ev "($SCRIPT_NAME|%CPU|[[:space:]]ps[[:space:]])" | $head_tail -n $PS_COUNT | gawk '
	BEGIN {
		IGNORECASE=1
		appName=""
		appPath=""
		appStarterName=""
		appStarterPath=""
		cpu=""
		mem=""
		pid=""
		user=""
		rss=""
	}
	{
		cpu=$3
		mem=$4
		pid=$2
		user=$1
		rss=sprintf( "%.2f", $6/1024 )
		# have to get rid of [,],(,) eg: [lockd] which break the printout function compare in bash
		gsub(/\[|\]|\(|\)/,"~", $0 )
		if ( $12 ~ /^\// ){
			appStarterPath=$11
			appPath=$12
		}
		else {
			appStarterPath=$11
			appPath=$11
		}
		appStarterName=gensub( /(\/.*\/)(.*)/, "\\2", "1", appStarterPath )
		appName=gensub( /(\/.*\/)(.*)/, "\\2", "1", appPath )
		print appName "," appPath "," appStarterName "," appStarterPath "," cpu "," mem "," pid "," rss "," user
	}
	' ) )
	# make the array ordered highest to lowest so output looks the way we expect it to
	# this isn't necessary for -rss, and we can't make %cpu ordered the other way, so
	# need to reverse it here. -rss is used because on older systems +rss is not supported
	if [[ $1 == 'cpu' ]];then
		array_length=${#A_PS_DATA[@]}; 
		while (( $i < $array_length/2 ))
		do 
			reorder_temp=${A_PS_DATA[i]}f
			A_PS_DATA[i]=${A_PS_DATA[$array_length-$i-1]}
			A_PS_DATA[$array_length-$i-1]=$reorder_temp
			(( i++ ))
		done 
	fi

	IFS="$ORIGINAL_IFS"
	
# 	echo ${A_PS_DATA[@]}
	eval $LOGFE
}

# Repos will be added as we get distro package manager data to create the repo data. 
# This method will output the file name also, which is useful to create output that's 
# neat and readable.
get_repo_data()
{
	eval $LOGFS
	local repo_file='' repo_data_working='' repo_data_working2='' repo_line=''
	local apt_file='/etc/apt/sources.list' yum_repo_dir='/etc/yum.repos.d/' yum_conf='/etc/yum.conf'
	local pacman_conf='/etc/pacman.conf' pacman_repo_dir='/etc/pacman.d/' pisi_dir='/etc/pisi/'
	
	# apt - debian, buntus
	if [[ -f $apt_file || -d $apt_file.d ]];then
		REPO_DATA="$( grep -Esv '(^[[:space:]]*$|^[[:space:]]*#)' $apt_file $apt_file.d/*.list )"
		REPO_FILE_ID='apt sources'
	# yum - fedora, redhat, centos, etc
	elif [[ -d $yum_repo_dir || -f $yum_conf ]];then
		# older redhats put their yum data in /etc/yum.conf
		for repo_file in $( ls $yum_repo_dir*.repo $yum_conf 2>/dev/null )
		do
			repo_data_working="$( gawk -v repoFile=$repo_file '
			# construct the string for the print function to work with, file name: data
			function print_line( fileName, repoId, repoUrl ){
				print fileName ":" repoId repoUrl
			}
			BEGIN {
				FS="\n"
				IGNORECASE=1
				enabledStatus=""
				repoTitle=""
				urlData=""
			}
			# this is a hack, assuming that each item has these fields listed, we collect the 3
			# items one by one, then when the url/enabled fields are set, we print it out and
			# reset the data. Not elegant but it works. Note that if enabled was not present
			# we assume it is enabled then, and print the line, reset the variables. This will
			# miss the last item, so it is printed if found in END
			/^\[.+\]/ {
				if ( urlData != "" && repoTitle != "" ){
					print_line( repoFile, repoTitle, urlData )
					enabledStatus=""
					urlData=""
					repoTitle=""
				}
				gsub( /\[|\]/, "", $1 ) # strip out the brackets
				repoTitle = $1 " ~ "
			}
			/^(mirrorlist|baseurl)/ {
				sub( /(mirrorlist|baseurl)=/, "", $1 ) # strip out the field starter
				urlData = $1
			}
			/^enabled=/ {
				enabledStatus = $1
			}
			# print out the line if all 3 values are found, otherwise if a new
			# repoTitle is hit above, it will print out the line there instead
			{ 
				if ( urlData != "" && enabledStatus != "" && repoTitle != "" ){
					if ( enabledStatus !~ /enabled=0/ ){
						print_line( repoFile, repoTitle, urlData )
					}
					enabledStatus=""
					urlData=""
					repoTitle=""
				}
			}
			END {
				# print the last one if there is data for it
				if ( urlData != ""  && repoTitle != "" ){
					print_line( repoFile, repoTitle, urlData )
				}
			}
			' $repo_file )"
			
			# then load the global for each file as it gets filled
			if [[ -n $repo_data_working ]];then
				if [[ -z $REPO_DATA ]];then
					REPO_DATA="$repo_data_working"
				else
					REPO_DATA="$REPO_DATA
$repo_data_working"
				fi
				repo_data_working=''
			fi
		done
		REPO_FILE_ID='yum repos'
	# pisi - pardus
	elif [[ -d $pisi_dir && -n $( type -p pisi ) ]];then
		REPO_DATA="$( pisi list-repo )"
		# now we need to create the structure: repo info: repo path
		# we do that by looping through the lines of the output and then
		# putting it back into the <data>:<url> format print repos expects to see
		while read repo_line
		do
			repo_line=$( gawk '
			{
				# need to dump leading/trailing spaces and clear out color codes for irc output
				sub(/^[[:space:]]+|[[:space:]]+$/,"",$0)
# 				gsub(/\x1B\[([0-9]{1,2}(;[0-9]{1,2})?)?[m|K]/,"",$0) # leaving this pattern in case need it
				gsub(/\[([0-9];)?[0-9]+m/,"",$0)
				print $0
			}' <<< $repo_line )
			if [[ -n $( grep '://' <<< $repo_line ) ]];then
				repo_data_working="$repo_data_working:$repo_line\n"
			else
				repo_data_working="$repo_data_working$repo_line"
			fi
		done <<< "$REPO_DATA"
		# echo and execute the line breaks inserted
		REPO_DATA="$( echo -e $repo_data_working )"
		REPO_FILE_ID='pisi repo'
	# pacman - archlinux
	elif [[ -f $pacman_conf ]];then
		# get list of mirror include files, trim white space off ends
		repo_data_working="$( gawk '
		BEGIN {
			FS="="
			IGNORECASE=1
		}
		/^[[:space:]]*Include/ {
			sub(/^[[:space:]]+|[[:space:]]+$/,"",$2)
			print $2
		}
		' $pacman_conf )"
		# sort into unique paths only, to be used to search for server = data
		repo_data_working=$( sort -bu <<< "$repo_data_working" | uniq ) 
		repo_data_working="$repo_data_working $pacman_conf"
		for repo_file in $repo_data_working 
		do
			if [[ -f $repo_file ]];then
				# inserting a new line after each found / processed match
				repo_data_working2="$repo_data_working2$( gawk -v repoFile=$repo_file '
				BEGIN {
					FS="="
					IGNORECASE=1
				}
				/^[[:space:]]*Server/ {
					sub(/^[[:space:]]+|[[:space:]]+$/,"",$2)
					print repoFile ":" $2 "\\n"
				}
				' $repo_file )"
			else
				echo "Error: file listed in $pacman_conf does not exist - $repo_file"
			fi
		done
		# execute line breaks
		REPO_DATA="$( echo -e $repo_data_working2 )"
		REPO_FILE_ID='arch repo servers'
	fi
	eval $LOGFE
}

get_runlevel_data()
{
	eval $LOGFS
	local runlvl=''
	local runlevel_path=$( type -p runlevel )
	if [[ -n $runlevel_path ]];then
		runlvl="$( $runlevel_path | gawk '{ print $2 }' )"
	fi
	echo $runlvl
	eval $LOGFE
}

get_sensors_data()
{
	eval $LOGFS
	
	local sensors_path=$( type -p sensors )
		
	IFS=$'\n'
	if [[ -n $sensors_path ]];then
		# note: non-configured sensors gives error message, which we need to redirect to stdout
		# also, -F ':' no space, since some cases have the data starting right after,like - :1287
		A_SENSORS_DATA=( $( 
  		$sensors_path | gawk -F ':' -v userCpuNo="$SENSORS_CPU_NO" '
		BEGIN {
			IGNORECASE=1
			core0Temp="" # only if all else fails...
			cpuTemp=""
			cpuTempReal=""
			fanWorking=""
			indexCountaFanMain=0
			indexCountaFanDefault=0
			i=""
			j=""
			moboTemp=""
			moboTempReal=""
			psuTemp=""
			separator=""
			sysFanString=""
			temp1=""
			temp2=""
			tempFanType="" # set to 1 or 2
			tempUnit=""
			tempWorking=""
			tempWorkingUnit=""
		}
		# dumping the extra + signs after testing for them,  nobody has negative temps.
		# also, note gawk treats ° as a space, so we have to get the C/F data
		# there are some guesses here, but with more sensors samples it will get closer.
		# note: using arrays starting at 1 for all fan arrays to make it easier overall
		# more validation because gensub if fails to get match returns full string, so
		# we have to be sure we are working with the actual real string before assiging
		# data to real variables and arrays. Extracting C/F degree unit as well to use
		# when constructing temp items for array. 
		# note that because of charset issues, no tempUnit="°" tempWorkingUnit degree sign 
		# used, but it is required in testing regex to avoid error.
		/^(M\/B|MB|SIO|SYS)(.*)\+([0-9]+)(.*)[ \t°](C|F)/ && $2 ~ /^[ \t]*\+([0-9]+)/ {
			moboTemp=gensub( /[ \t]+\+([0-9\.]*)(.*)/, "\\1", 1, $2 )
			tempWorkingUnit=gensub( /[ \t]+\+([0-9\.]+)[ \t°]+([CF])(.*)/, "\\2", 1, $2 )
			if ( tempWorkingUnit ~ /^C|F$/ && tempUnit == "" ){
				tempUnit=tempWorkingUnit
			}
		}
		/^CPU(.*)\+([0-9]+)(.*)[ \t°](C|F)/ && $2 ~ /^[ \t]*\+([0-9]+)/ {
			cpuTemp=gensub( /[ \t]+\+([0-9\.]+)(.*)/, "\\1", 1, $2 )
			tempWorkingUnit=gensub( /[ \t]+\+([0-9\.]+)[ \t°]+([CF])(.*)/, "\\2", 1, $2 )
			if ( tempWorkingUnit ~ /^C|F$/ && tempUnit == "" ){
				tempUnit=tempWorkingUnit
			}
		}
		/^(P\/S|Power)(.*)\+([0-9]+)(.*)[ \t°](C|F)/ && $2 ~ /^[ \t]*\+([0-9]+)/ {
			psuTemp=gensub( /[ \t]+\+([0-9\.]+)(.*)/, "\\1", 1, $2 )
			tempWorkingUnit=gensub( /[ \t]+\+([0-9\.]+)[ \t°]+([CF])(.*)/, "\\2", 1, $2 )
			if ( tempWorkingUnit ~ /^C|F$/ && tempUnit == "" ){
				tempUnit=tempWorkingUnit
			}
		}
		$1 ~ /^temp1$/ && $2 ~ /^[ \t]*\+([0-9]+)/ {
			tempWorking=gensub( /[ \t]+\+([0-9\.]+)(.*)/, "\\1", 1, $2 )
			if ( temp1 == "" || tempWorking > 0 ) {
				temp1=tempWorking
			}
			tempWorkingUnit=gensub( /[ \t]+\+([0-9\.]+)[ \t°]+([CF])(.*)/, "\\2", 1, $2 )
			if ( tempWorkingUnit ~ /^C|F$/ && tempUnit == "" ){
				tempUnit=tempWorkingUnit
			}
		}
		$1 ~ /^temp2$/ && $2 ~ /^[ \t]*\+([0-9]+)/ {
			tempWorking=gensub( /[ \t]+\+([0-9\.]+)(.*)/, "\\1", 1, $2 )
			if ( temp2 == "" || tempWorking > 0 ) {
				temp2=tempWorking
			}
			tempWorkingUnit=gensub( /[ \t]+\+([0-9\.]+)[ \t°]+([CF])(.*)/, "\\2", 1, $2 )
			if ( tempWorkingUnit ~ /^C|F$/ && tempUnit == "" ){
				tempUnit=tempWorkingUnit
			}
		}
		
		# final fallback if all else fails, funtoo user showed sensors putting
		# temp on wrapped second line, not handled
		/^(core0|core 0)(.*)\+([0-9]+)(.*)[ \t°](C|F)/ && $2 ~ /^[ \t]*\+([0-9]+)/ {
			tempWorking=gensub( /[ \t]+\+([0-9\.]+)(.*)/, "\\1", 1, $2 )
			if ( core0Temp == "" || tempWorking > 0 ) {
				core0Temp=tempWorking
			}
			tempWorkingUnit=gensub( /[ \t]+\+([0-9\.]+)[ \t°]+([CF])(.*)/, "\\2", 1, $2 )
			if ( tempWorkingUnit ~ /^C|F$/ && tempUnit == "" ){
				tempUnit=tempWorkingUnit
			}
		}
		
		# note: can be cpu fan:, cpu fan speed:, etc. Some cases have no space before
		# $2 starts (like so :1234 RPM), so skip that space test in regex
		/^CPU(.*)[ \t]*([0-9]+)[ \t]RPM/ {
			aFanMain[1]=gensub( /[ \t]*([0-9]+)[ \t]+(.*)/, "\\1", 1, $2 )
		}
		/^(M\/B|MB|SYS)(.*)[ \t]*([0-9]+)[ \t]RPM/ {
			aFanMain[2]=gensub( /[ \t]*([0-9]+)[ \t]+(.*)/, "\\1", 1, $2 )
		}
		/(Power|P\/S|POWER)(.*)[ \t]*([0-9]+)[ \t]RPM/ {
			aFanMain[3]=gensub( /[ \t]*([0-9]+)[ \t]+(.*)/, "\\1", 1, $2 )
		}
		# note that the counters are dynamically set for fan numbers here
		# otherwise you could overwrite eg aux fan2 with case fan2 in theory
		# note: cpu/mobo/ps are 1/2/3
		# NOTE: test: ! i in array does NOT work, this appears to be an awk/gawk bug
		/^(AUX(1)? |CASE(1)? |CHASSIS(1)? )(.*)[ \t]*([0-9]+)[ \t]RPM/ {
			for ( i = 4; i < 7; i++ ){
				if ( i in aFanMain ){
					##
				}
				else {
					aFanMain[i]=gensub( /[ \t]*([0-9]+)[ \t]+(.*)/, "\\1", 1, $2 )
					break
				}
			}
		}
		/^(AUX([2-9]) |CASE([2-9]) |CHASSIS([2-9]) )(.*)[ \t]*([0-9]+)[ \t]RPM/ {
			for ( i = 5; i < 30; i++ ){
				if ( i in aFanMain ) {
					##
				}
				else {
					sysFanNu = i
					aFanMain[i]=gensub( /[ \t]*([0-9]+)[ \t]+(.*)/, "\\1", 1, $2 )
					break
				}
			}
		}
		# in rare cases syntax is like: fan1: xxx RPM
		/^(FAN(1)?[ \t:])(.*)[ \t]*([0-9]+)[ \t]RPM/ {
			aFanDefault[1]=gensub( /[ \t]*([0-9]+)[ \t]+(.*)/, "\\1", 1, $2 )
		}
		/^FAN([2-9]|1[0-9])(.*)[ \t]*([0-9]+)[ \t]RPM/ {
			fanWorking=gensub( /[ \t]*([0-9]+)[ \t]+(.*)/, "\\1", 1, $2 )
			sysFanNu=gensub( /fan([0-9]+)/, "\\1", 1, $1 )
			if ( sysFanNu ~ /^([0-9]+)$/ ) {
				# add to array if array index does not exist OR if number is > existing number
				if ( sysFanNu in aFanDefault ) {
					if ( fanWorking >= aFanDefault[sysFanNu] ) {
						aFanDefault[sysFanNu]=fanWorking
					}
				}
				else {
					aFanDefault[sysFanNu]=fanWorking
				}
			}
		}
		
		END {
			# first we need to handle the case where we have to determine which temp/fan to use for cpu and mobo:
			# note, for rare cases of weird cool cpus, user can override in their prefs and force the assignment
			if ( temp1 != "" && temp2 != "" ){
				if ( userCpuNo != "" && userCpuNo ~ /(1|2)/ ) {
					tempFanType=userCpuNo
				}
				else {
					# first some fringe cases with cooler cpu than mobo: assume which is cpu temp based on fan speed
					# but only if other fan speed is 0
					if ( temp1 >= temp2 && 1 in aFanDefault && 2 in aFanDefault && aFanDefault[1] == 0 && aFanDefault[2] > 0 ) {
						tempFanType=2
					}
					else if ( temp2 >= temp1 && 1 in aFanDefault && 2 in aFanDefault && aFanDefault[2] == 0 && aFanDefault[1] > 0 ) {
						tempFanType=1
					}
					# then handle the standard case if these fringe cases are false
					else if ( temp1 >= temp2 ) {
						tempFanType=1
					}
					else {
						tempFanType=2
					}
				}
			}
			# need a case for no temps at all reported, like with old intels
			else if ( temp2 == "" && cpuTemp == "" ){
				if ( temp1 == "" && moboTemp == "" ){
					tempFanType=1
				}
				else if ( temp1 != "" && moboTemp == "" ){
					tempFanType=1
				}
				else if ( temp1 != "" && moboTemp != "" ){
					tempFanType=1
				}
			}
			
			# then get the real cpu temp, best guess is hottest is real
			if ( cpuTemp != "" ){
				cpuTempReal=cpuTemp
			}
			else if ( tempFanType != "" ){
				if ( tempFanType == 1 ){
					cpuTempReal=temp1
				}
				else {
					cpuTempReal=temp2
				}
			}
			else {
				cpuTempReal=temp1
			}
			# if all else fails, use core0 temp if it is present and cpu is null
			if ( cpuTempReal == "" && core0Temp != "" ) {
				cpuTempReal=core0Temp
			}

			# then the real mobo temp
			if ( moboTemp != "" ){
				moboTempReal=moboTemp
			}
			else if ( tempFanType != "" ){
				if ( tempFanType == 1 ) {
					moboTempReal=temp2
				}
				else {
					moboTempReal=temp1
				}
			}
			else {
				moboTempReal=temp2
			}
			# then set the cpu fan speed
			if ( aFanMain[1] == "" ) {
				# note, you cannot test for aFanDefault[1] or [2] != "" 
				# because that creates an array item in gawk just by the test itself
				if ( tempFanType == 1 && 1 in aFanDefault ) {
					aFanMain[1]=aFanDefault[1]
					aFanDefault[1]=""
				}
				else if ( tempFanType == 2 && 2 in aFanDefault ) {
					aFanMain[1]=aFanDefault[2]
					aFanDefault[2]=""
				}
			}

			# then we need to get the actual numeric max array count for both fan arrays
			for (i = 0; i <= 29; i++) {
				if ( i in aFanMain && i > indexCountaFanMain ) {
					indexCountaFanMain=i
				}
			}
			for (i = 0; i <= 14; i++) {
				if ( i in aFanDefault && i > indexCountaFanDefault ) {
					indexCountaFanDefault=i
				}
			}
			
			# clear out any duplicates. Primary fan real trumps fan working always if same speed
			for (i = 1; i <= indexCountaFanMain; i++) {
				if ( i in aFanMain && aFanMain[i] != "" && aFanMain[i] != 0 ) {
					for (j = 1; j <= indexCountaFanDefault; j++) {
						if ( j in aFanDefault && aFanMain[i] == aFanDefault[j] ) {
							aFanDefault[j] = ""
						}
					}
				}
			}

			# now see if you can find the fast little mobo fan, > 5000 rpm and put it as mobo
			# note that gawk is returning true for some test cases when aFanDefault[j] < 5000
			# which has to be a gawk bug, unless there is something really weird with arrays
			# note: 500 > aFanDefault[j] < 1000 is the exact trigger, and if you manually 
			# assign that value below, the > 5000 test works again, and a print of the value
			# shows the proper value, so the corruption might be internal in awk. 
			# Note: gensub is the culprit I think, assigning type string for range 501-1000 but 
			# type integer for all others, this triggers true for >
			for (j = 1; j <= indexCountaFanDefault; j++) {
				if ( j in aFanDefault && int( aFanDefault[j] ) > 5000 && aFanMain[2] == "" ) {
					aFanMain[2] = aFanDefault[j]
					aFanDefault[j] = ""
					# then add one if required for output
					if ( indexCountaFanMain < 2 ) {
						indexCountaFanMain = 2
					}
				}
			}

			# then construct the sys_fan string for echo, note that iteration 1
			# makes: fanDefaultString separator null, ie, no space or ,
			for (j = 1; j <= indexCountaFanDefault; j++) {
				fanDefaultString = fanDefaultString separator aFanDefault[j]
				separator=","
			}
			separator="" # reset to null for next loop
			# then construct the sys_fan string for echo
			for (j = 1; j <= indexCountaFanMain; j++) {
				fanMainString = fanMainString separator aFanMain[j]
				separator=","
			}
			
			# and then build the temps:
			if ( moboTempReal != "" ) {
				moboTempReal = moboTempReal tempUnit
			}
			if ( cpuTempReal != "" ) {
				cpuTempReal = cpuTempReal tempUnit
			}
			
			# if they are ALL null, print error message. psFan is not used in output currently
			if ( cpuTempReal == "" && moboTempReal == "" && aFanMain[1] == "" && aFanMain[2] == "" && aFanMain[3] == "" && fanDefaultString == "" ) {
				print "No active sensors found. Have you configured your sensors yet?"
			}
			else {
				# then build array arrays: 
				print cpuTempReal "," moboTempReal "," psuTemp
				# this is for output, a null print line does NOT create a new array index in bash
				if ( fanMainString == "" ) {
					fanMainString=","
				}
				print fanMainString
				print fanDefaultString
			}
		}
		'
		) )
	# the error case needs to go here because we are setting special array delimiter ','
	else
		A_SENSORS_DATA=( "You do not have the sensors app installed." )
	fi
	
	IFS="$ORIGINAL_IFS"
	log_function_data "A_SENSORS_DATA: ${A_SENSORS_DATA[@]}"
# 	echo "A_SENSORS_DATA: ${A_SENSORS_DATA[@]}"
	eval $LOGFE
}

get_unmounted_partition_data()
{
	eval $LOGFS
	local a_unmounted_working='' mounted_partitions='' separator='' unmounted_fs=''
	local dev_working='' uuid_working='' label_working=''
	
	if [[ $B_PARTITIONS_FILE == 'true' ]];then
		# set dev disk label/uuid data globals
		get_partition_uuid_label_data 'label'
		get_partition_uuid_label_data 'uuid'
		
		# create list for slicing out the mounted partitions
		for (( i=0; i < ${#A_PARTITION_DATA[@]}; i++ ))
		do
			IFS=","
			a_unmounted_working=( ${A_PARTITION_DATA[i]} )
			IFS="$ORIGINAL_IFS"
			if [[ -n ${a_unmounted_working[6]} ]];then
				mounted_partitions="$mounted_partitions$separator${a_unmounted_working[6]}"
				separator='|'
			fi
		done
	
		A_UNMOUNTED_PARTITION_DATA=( $( grep -Ev '('$mounted_partitions')' $FILE_PARTITIONS | gawk '
		BEGIN {
			IGNORECASE=1
		}
		# note that size 1 means it is a logical extended partition container
		# lvm might have dm-1 type syntax
		# need to exclude loop type file systems, squashfs for example
		/[a-z][0-9]+$|dm-[0-9]+$/ && $3 != 1 && $NF !~ /loop/ {
			size = sprintf( "%.2f", $3*1024/1000**3 )
			print $4 "," size "G"
		}' ) )

		for (( i=0; i < ${#A_UNMOUNTED_PARTITION_DATA[@]}; i++ ))
		do
			IFS=","
			a_unmounted_working=( ${A_UNMOUNTED_PARTITION_DATA[i]} )
			IFS="$ORIGINAL_IFS"
			
			label_working=$( grep -E "${a_unmounted_working[0]}$" <<< "$DEV_DISK_LABEL"  | gawk '{
				print $(NF - 2)
			}' )
			uuid_working=$( grep -E "${a_unmounted_working[0]}$" <<< "$DEV_DISK_UUID"  | gawk '{
				print $(NF - 2)
			}' )
			unmounted_fs=$( get_unmounted_partition_filesystem "/dev/${a_unmounted_working[0]}" )
			
			IFS=","
			A_UNMOUNTED_PARTITION_DATA[i]=${a_unmounted_working[0]}","${a_unmounted_working[1]}","$label_working","$uuid_working","$unmounted_fs
			IFS="$ORIGINAL_IFS"
		done
	fi
#	echo "${A_PARTITION_DATA[@]}"
# 	echo "${A_UNMOUNTED_PARTITION_DATA[@]}"
	eval $LOGFE
}

# a few notes, normally file -s requires root, but you can set user rights in /etc/sudoers.
# list of file systems: http://en.wikipedia.org/wiki/List_of_file_systems
# args: $1 - /dev/<disk><part> to be tested for
get_unmounted_partition_filesystem()
{
	eval $LOGFS
	local partition_filesystem='' sudo_command=''
	
	if [[ $B_FILE_TESTED != 'true' ]];then
		B_FILE_TESTED='true'
		FILE_PATH=$( type -p file )
	fi
	
	if [[ $B_SUDO_TESTED != 'true' ]];then
		B_SUDO_TESTED='true'
		SUDO_PATH=$( type -p sudo )
	fi
	
	if [[ -n $FILE_PATH && -n $1 ]];then
		# only use sudo if not root, -n option requires sudo -V 1.7 or greater. sudo will just error out
		# which is the safest course here for now, otherwise that interactive sudo password thing is too annoying
		# important: -n makes it non interactive, no prompt for password
		if [[ $B_ROOT != 'true' && -n $SUDO_PATH ]];then
			sudo_command='sudo -n '
		fi
		# this will fail if regular user and no sudo present, but that's fine, it will just return null
		# note the hack that simply slices out the first line if > 1 items found in string
		partition_filesystem=$( eval $sudo_command $FILE_PATH -s $1 | grep -Eio '(ext2|ext3|ext4|ext5|ext[[:space:]]|ntfs|fat32|fat16|fat[[:space:]]\(.*\)|vfat|fatx|tfat|swap|btrfs|ffs[[:space:]]|hfs\+|hfs[[:space:]]plus|hfs[[:space:]]extended[[:space:]]version[[:space:]][1-9]|hfsj|hfs[[:space:]]|jfs[[:space:]]|nss[[:space:]]|reiserfs|reiser4|ufs2|ufs[[:space:]]|xfs[[:space:]]|zfs[[:space:]])' | grep -Em 1 '.*' )
		if [[ -n $partition_filesystem ]];then
			echo $partition_filesystem
		fi
	fi
	eval $LOGFE
}

## return uptime string
get_uptime()
{
	eval $LOGFS
	## note: removing gsub(/ /,"",a); to get get space back in there, goes right before print a
	local uptime_value="$( uptime | gawk '{
		a = gensub(/^.*up *([^,]*).*$/,"\\1","g",$0)
		print a
	}' )"
	echo "$uptime_value"
	log_function_data "uptime_value: $uptime_value"
	eval $LOGFE
}

#### -------------------------------------------------------------------
#### special data handling for specific options and conditions
#### -------------------------------------------------------------------

## multiply the core count by the data to be calculated, bmips, cache
# args: $1 - string to handle; $2 - cpu count
calculate_multicore_data()
{
	eval $LOGFS
	local string_number=$1 string_data=''

	if [[ -n $( egrep -i '( mb| kb)' <<< $1 ) ]];then
		string_data=" $( gawk '{print $2}' <<< $1 )" # add a space for output
		string_number=$( gawk '{print $1}' <<< $1 )
	fi
	# handle weird error cases where it's not a number
	if [[ -n $( egrep '^[0-9\.,]+$' <<< $string_number ) ]];then
		string_number=$( echo $string_number $2 | gawk '{
			total = $1*$2
			print total
		}' )
	elif [[ $string_number == '' ]];then
		string_number='Not Available'
	else
		# I believe that the above returns 'unknown' by default so no need for extra text
		string_number="$string_number "
	fi
	echo "$string_number$string_data"
	log_function_data "string_numberstring_data: $string_number$string_data"
	eval $LOGFE
}

# prints out shortened list of flags, the main ones of interest
# args: $1 - string of cpu flags to process
process_cpu_flags()
{
	eval $LOGFS
	# must have a space after last item in list for RS=" "
	local cpu_flags_working="$1 "
	
	# nx = AMD stack protection extensions
	# lm = Intel 64bit extensions
	# sse, sse2, pni = sse1,2,3,4,5 gfx extensions
	# svm = AMD pacifica virtualization extensions
	# vmx = Intel IVT (vanderpool) virtualization extensions
	cpu_flags=$( 
	echo "$cpu_flags_working" | gawk '
	BEGIN {
		RS=" "
		count = 0
		i = 1 # start at one because of for increment issue
		flag_string = ""
	}
	/^(lm|nx|pni|svm|vmx|(sss|ss)e([2-9])?([a-z])?(_[0-9])?)$/ {
		if ( $0 == "pni" ){
			a_flags[i] = "sse3"
		}
		else {
			a_flags[i] = $0
		}
		i++
	}
	END {
		count = asort( a_flags )
		# note: why does gawk increment before the loop and not after? weird.
		for ( i=0; i <= count; i++ ){
			if ( flag_string == "" ) {
				flag_string = a_flags[i] 
			}
			else {
				flag_string = flag_string " " a_flags[i]
			}
		}
		print flag_string
	}' 
	)

	#grep -oE '\<(nx|lm|sse[0-9]?|pni|svm|vmx)\>' | tr '\n' ' '))
	if [[ -z $cpu_flags ]];then
		cpu_flags="-"
	fi
	echo "$cpu_flags"
	log_function_data "cpu_flags: $cpu_flags"
	eval $LOGFE
}

#### -------------------------------------------------------------------
#### print and processing of output data
#### -------------------------------------------------------------------

#### MASTER PRINT FUNCTION - triggers all line item print functions
## main function to print out, master for all sub print functions.
print_it_out()
{
	eval $LOGFS
	# note that print_it_out passes local variable values on to its children,
	# and in some cases, their children, with Lspci_Data
	local Lspci_Data='' # only for verbose

	if [[ $B_SHOW_SHORT_OUTPUT == 'true' ]];then
		print_short_data
	else
		Lspci_Data="$( get_lspci_data )"
		if [[ $VERBOSITY_LEVEL -ge 1 || $B_SHOW_SYSTEM == 'true' ]];then
			print_system_data
		fi
		if [[ $VERBOSITY_LEVEL -ge 1 || $B_SHOW_CPU == 'true' ]];then
			print_cpu_data
		fi
		if [[ $VERBOSITY_LEVEL -ge 1 || $B_SHOW_GRAPHICS == 'true' ]];then
			print_gfx_data
		fi
		if [[ $VERBOSITY_LEVEL -ge 5 || $B_SHOW_AUDIO == 'true' ]];then
			print_audio_data
		fi
		if [[ $VERBOSITY_LEVEL -ge 2 || $B_SHOW_NETWORK == 'true' ]];then
			print_networking_data
		fi
		if [[ $VERBOSITY_LEVEL -ge 1 || $B_SHOW_DISK == 'true' ]];then
			print_hard_disk_data
		fi
		if [[ $VERBOSITY_LEVEL -ge 4 || $B_SHOW_PARTITIONS == 'true' ]];then
			print_partition_data
		fi
		if [[ $B_SHOW_UNMOUNTED_PARTITIONS == 'true' ]];then
			print_unmounted_partition_data
		fi
		if [[ $VERBOSITY_LEVEL -ge 5 || $B_SHOW_SENSORS == 'true' ]];then
			print_sensors_data
		fi
		if [[ $B_SHOW_REPOS == 'true' ]];then
			print_repo_data
		fi
		if [[ $B_SHOW_PS_CPU_DATA == 'true' || $B_SHOW_PS_MEM_DATA == 'true' ]];then
			print_ps_data
		fi
		if [[ $VERBOSITY_LEVEL -ge 1 || $B_SHOW_INFO == 'true' ]];then
			print_info_data
		fi
	fi
	eval $LOGFE
}

#### SHORT OUTPUT PRINT FUNCTION, ie, verbosity 0
# all the get data stuff is loaded here to keep execution time down for single line print commands
# these will also be loaded in each relevant print function for long output
print_short_data()
{
	eval $LOGFS
	local current_kernel=$( uname -rm ) # | gawk '{print $1,$3,$(NF-1)}' )
	local processes="$(( $( ps aux | wc -l ) - 1 ))"
	local short_data='' i='' b_background_black='false'
	local memory=$( get_memory_data )
	local up_time="$( get_uptime )"

	# set A_CPU_CORE_DATA
	get_cpu_core_count
	local cpc_plural='' cpu_count_print='' model_plural=''
	local cpu_physical_count=${A_CPU_CORE_DATA[0]}
	local cpu_core_count=${A_CPU_CORE_DATA[3]}
	local cpu_core_alpha=${A_CPU_CORE_DATA[1]}
	local cpu_type=${A_CPU_CORE_DATA[2]}

	if [[ $cpu_physical_count -gt 1 ]];then
		cpc_plural='(s)'
		model_plural='s'
		cpu_count_print="$cpu_physical_count "
	fi

	local cpu_data_string="${cpu_count_print}${cpu_core_alpha} core"
# 	local cpu_core_count=${A_CPU_CORE_DATA[0]}

	# load A_HDD_DATA
	get_hdd_data_basic
	## note: if hdd_model is declared prior to use, whatever string you want inserted will
	## be inserted first. In this case, it's desirable to print out (x) before each disk found.
	local a_hdd_data_count=$(( ${#A_HDD_DATA[@]} - 1 ))
	IFS=","
	local a_hdd_basic_working=( ${A_HDD_DATA[$a_hdd_data_count]} )
	IFS="$ORIGINAL_IFS"
	local hdd_capacity=${a_hdd_basic_working[0]}
	local hdd_used=${a_hdd_basic_working[1]}

	# load A_CPU_DATA
	get_cpu_data

	IFS=","
	local a_cpu_working=(${A_CPU_DATA[0]})
	IFS="$ORIGINAL_IFS"
	local cpu_model="${a_cpu_working[0]}"
	## assemble data for output
	local cpu_clock="${a_cpu_working[1]}" # old CPU3
	# this gets that weird min/max final array item
	local min_max_clock_nu=$(( ${#A_CPU_DATA[@]} - 1 ))
	local min_max_clock=${A_CPU_DATA[$min_max_clock_nu]}

	#set_color_scheme 12
	if [[ $B_RUNNING_IN_SHELL == 'false' ]];then
		for i in $C1 $C2 $CN
		do
			case "$i" in
				"$GREEN"|"$WHITE"|"$YELLOW"|"$CYAN")
					b_background_black='true'
					;;
			esac
		done
		if [[ $b_background_black == 'true' ]];then
			for i in C1 C2 CN
			do
				## these need to be in quotes, don't know why
				if [[ ${!i} == $NORMAL ]];then
					declare $i="${!i}15,1"
				else
					declare $i="${!i},1"
				fi
			done
			#C1="${C1},1"; C2="${C2},1"; CN="${CN},1"
		fi
	fi
	short_data="${C1}CPU$cpc_plural${CN}[${C2}${SEP1}${cpu_data_string} ${cpu_model}$model_plural (${cpu_type}) clocked at ${min_max_clock}${SEP1}${CN}] ${C1}Kernel${CN}[${C2}${SEP1}${current_kernel}${SEP1}${CN}] ${C1}Up${CN}[${C2}${SEP1}${up_time}${SEP1}${CN}] ${C1}Mem${CN}[${C2}${SEP1}${memory}${SEP1}${CN}] ${C1}HDD${CN}[${C2}${SEP1}${hdd_capacity}($hdd_used)${SEP1}${CN}] ${C1}Procs${CN}[${C2}${SEP1}${processes}${SEP1}${CN}]"

	if [[ $SHOW_IRC -gt 0 ]];then
		short_data="${short_data} ${C1}Client${CN}[${C2}${SEP1}${IRC_CLIENT}${IRC_CLIENT_VERSION}${SEP1}${CN}]"
	fi
	short_data="${short_data} ${C1}$SCRIPT_NAME${C2}${CN}[${C2}${SEP1}$SCRIPT_VERSION_NUMBER${SEP1}${CN}]"
	if [[ $SCHEME -gt 0 ]];then
		short_data="${short_data} $NORMAL"
	fi
	print_screen_output "$short_data"
	eval $LOGFE
}

#### LINE ITEM PRINT FUNCTIONS

# print sound card data
print_audio_data()
{
	eval $LOGFS
	local i='' card_one='Card-1' audio_data='' a_audio_data='' port_data='' pci_bus_id=''
	local a_audio_working='' alsa_driver='' alsa_data='' port_plural='' module_version=''
	# set A_AUDIO_DATA and get alsa data
	get_audio_data
	alsa_data=$( get_audio_alsa_data )
	IFS=","
	a_audio_working=(${A_AUDIO_DATA[0]})
	IFS="$ORIGINAL_IFS"

	if [[ -n ${A_AUDIO_DATA[@]} ]];then
		# slightly complicated because 2nd array item could be the alsa data
		if [[ ${#A_AUDIO_DATA[@]} -le 1 ]];then
			card_one='Card'
		fi

# 		if [[ -n ${a_audio_working[2]} ]];then
# 			port_data=" ${C1}at port${C2} ${a_audio_working[2]}"
# 		fi
		# this should only trigger if the $FILE_ASOUND_DEVICE data is used, not lspci -nn
		if [[ -n ${a_audio_working[3]} && $B_EXTRA_DATA == 'true' ]];then
			# note that for some reason, the module name is not the same as the module
			# loaded to kernel name for audio drivers, and you'll need to change the -
			module_version=$( print_module_version "${a_audio_working[3]}" 'audio' )
		elif [[ -n ${a_audio_working[1]} && $B_EXTRA_DATA == 'true' ]];then
			module_version=$( print_module_version "${a_audio_working[1]}" 'audio' )
		fi
		if [[ -n ${a_audio_working[1]} ]];then
			alsa_driver=" ${C1}driver${C2} ${a_audio_working[1]}$module_version"
		fi
		if [[ -n ${a_audio_working[2]} && $B_EXTRA_DATA == 'true' ]];then
			if [[ $( wc -w <<< ${a_audio_working[2]} ) -gt 1 ]];then
				port_plural='s'
			fi
			port_data=" ${C1}at port$port_plural${C2} ${a_audio_working[2]}"
		fi
		if [[ -n ${a_audio_working[4]} && $B_EXTRA_DATA == 'true' ]];then
			pci_bus_id=" ${C1}BusID:${C2} ${a_audio_working[4]}"
		fi
		audio_data="${C1}$card_one${C2} ${a_audio_working[0]}$alsa_driver$port_data$pci_bus_id"
		audio_data=$( create_print_line "Audio:" "$audio_data" )
		print_screen_output "$audio_data"
		i=0 ## loop starts with 1 by auto-increment so it only shows cards > 1
		while [[ -n ${A_AUDIO_DATA[++i]} ]]
		do
			IFS=","
			a_audio_working=( ${A_AUDIO_DATA[i]} )
			IFS="$ORIGINAL_IFS"
			port_data=''
			alsa_driver=''
			port_plural=''
			module_version=''
			pci_bus_id=''
			if [[ -n ${a_audio_working[3]} && $B_EXTRA_DATA == 'true' ]];then
				module_version=$( print_module_version "${a_audio_working[3]}" 'audio' )
			elif [[ -n ${a_audio_working[1]} && $B_EXTRA_DATA == 'true' ]];then
				module_version=$( print_module_version "${a_audio_working[1]}" 'audio' )
			fi
			# we're testing for the presence of the 2nd array item here, which is the driver name
			if [[ -n ${a_audio_working[1]} ]];then
				alsa_driver="${C1}driver${C2} ${a_audio_working[1]}"
			fi
			if [[ -n ${a_audio_working[2]} && $B_EXTRA_DATA == 'true' ]];then
				if [[ $( wc -w <<< ${a_audio_working[2]} ) -gt 1 ]];then
					port_plural='s'
				fi
				port_data=" ${C1}at port$port_plural${C2} ${a_audio_working[2]}"
			fi
			if [[ -n ${a_audio_working[4]} && $B_EXTRA_DATA == 'true' ]];then
				pci_bus_id=" ${C1}BusID:${C2} ${a_audio_working[4]}"
			fi
			if [[ -n ${a_audio_working[0]} ]];then
				audio_data="${C1}Card-$(( $i + 1 ))${C2} ${a_audio_working[0]}$alsa_driver$port_data$pci_bus_id"
			fi
			if [[ -n $audio_data ]];then
				audio_data=$( create_print_line " " "$audio_data" )
				print_screen_output "$audio_data"
			fi
		done
		# alsa driver data only prints out if sound card data is found
		if [[ -n $alsa_data ]];then
			audio_data="${C1}Sound:${C2} $alsa_data"
			audio_data=$( create_print_line " " "$audio_data" )
			print_screen_output "$audio_data"
		fi
	fi
	eval $LOGFE
}

print_cpu_data()
{
	eval $LOGFS
	local cpu_data='' i='' cpu_clock_speed='' cpu_multi_clock_data=''
	local bmip_data='' cpu_cache='' cpu_vendor='' cpu_flags=''

	##print_screen_output "A_CPU_DATA[0]=\"${A_CPU_DATA[0]}\""
	# Array A_CPU_DATA always has one extra element: max clockfreq found.
	# that's why its count is one more than you'd think from cores/cpus alone
	# load A_CPU_DATA
	get_cpu_data

	IFS=","
	local a_cpu_working=(${A_CPU_DATA[0]})
	IFS="$ORIGINAL_IFS"
	local cpu_model="${a_cpu_working[0]}"
	## assemble data for output
	local cpu_clock="${a_cpu_working[1]}"

	cpu_vendor=${a_cpu_working[5]}

	# set A_CPU_CORE_DATA
	get_cpu_core_count
	local cpc_plural='' cpu_count_print='' model_plural=''
	local cpu_physical_count=${A_CPU_CORE_DATA[0]}
	local cpu_core_count=${A_CPU_CORE_DATA[3]}
	local cpu_core_alpha=${A_CPU_CORE_DATA[1]}
	local cpu_type=${A_CPU_CORE_DATA[2]}

	if [[ $cpu_physical_count -gt 1 ]];then
		cpc_plural='(s)'
		cpu_count_print="$cpu_physical_count "
		model_plural='s'
	fi

	local cpu_data_string="${cpu_count_print}${cpu_core_alpha} core"
	# Strange (and also some expected) behavior encountered. If print_screen_output() uses $1
	# as the parameter to output to the screen, then passing "<text1> ${ARR[@]} <text2>"
	# will output only <text1> and first element of ARR. That "@" splits in elements and "*" _doesn't_,
	# is to be expected. However, that text2 is consecutively truncated is somewhat strange, so take note.
	# This has been confirmed by #bash on freenode.
	# The above mentioned only emerges when using the debugging markers below
	## print_screen_output "a_cpu_working=\"***${a_cpu_working[@]} $hostName+++++++\"----------"

	if [[ -z ${a_cpu_working[2]} ]];then
		a_cpu_working[2]="unknown"
	fi

	cpu_data=$( create_print_line "CPU$cpc_plural:" "${C1}${cpu_data_string}${C2} ${a_cpu_working[0]}$model_plural (${cpu_type})" )
	if [[ $VERBOSITY_LEVEL -ge 3 || $B_SHOW_CPU == 'true' ]];then
		# update for multicore, bogomips x core count.
		if [[ $B_EXTRA_DATA == 'true' ]];then
# 			if [[ $cpu_vendor != 'intel' ]];then
				bmip_data=$( calculate_multicore_data "${a_cpu_working[4]}" "$(( $cpu_core_count * $cpu_physical_count ))" )
# 			else
# 				bmip_data="${a_cpu_working[4]}"
# 			fi
			bmip_data=" ${C1}bmips${C2} $bmip_data"
		fi
		## note: this handles how intel reports L2, total instead of per core like AMD does
		# note that we need to multiply by number of actual cpus here to get true cache size
		if [[ $cpu_vendor != 'intel' ]];then
			cpu_cache=$( calculate_multicore_data "${a_cpu_working[2]}" "$(( $cpu_core_count * $cpu_physical_count ))"  )
		else
			cpu_cache=$( calculate_multicore_data "${a_cpu_working[2]}" "$cpu_physical_count"  )
		fi
		# only print shortened list
		if [[ $B_CPU_FLAGS_FULL != 'true' ]];then
			cpu_flags=$( process_cpu_flags "${a_cpu_working[3]}" )
			cpu_flags=" ${C1}flags${C2} ($cpu_flags)"
		fi
		cpu_data="$cpu_data${C2} ${C1}cache${C2} $cpu_cache$cpu_flags$bmip_data${CN}"
	fi
	# we don't this printing out extra line unless > 1 cpu core
	if [[ ${#A_CPU_DATA[@]} -gt 2 ]] && [[ $B_SHOW_CPU == 'true' || $VERBOSITY_LEVEL -ge 5 ]];then
		cpu_clock_speed='' # null < verbosity level 5
	else
		cpu_data="$cpu_data ${C1}clocked at${C2} ${a_cpu_working[1]} MHz${CN}"
	fi

	cpu_data="$cpu_data $cpu_clock_speed"
	print_screen_output "$cpu_data"

	# we don't this printing out extra line unless > 1 cpu core
	if [[ ${#A_CPU_DATA[@]} -gt 2 ]] && [[ $B_SHOW_CPU == 'true' || $VERBOSITY_LEVEL -ge 5 ]];then
		for (( i=0; i < ${#A_CPU_DATA[@]}-1; i++ ))
		do
			IFS=","
			a_cpu_working=(${A_CPU_DATA[i]})
			IFS="$ORIGINAL_IFS"
			# note: the first iteration will create a first space, for color code separation below
			cpu_multi_clock_data="$cpu_multi_clock_data ${C1}($(( i + 1 )))${C2} ${a_cpu_working[1]} MHz${CN}"
			if [[ $i -gt 10 ]];then
				break
			fi
		done
		if [[ -n $cpu_multi_clock_data ]];then
			cpu_multi_clock_data=$( create_print_line " " "${C1}Clock Speeds:${C2}$cpu_multi_clock_data" )
			print_screen_output "$cpu_multi_clock_data"
		fi
	fi
	if [[ $B_CPU_FLAGS_FULL == 'true' ]];then
		print_cpu_flags_full "${a_cpu_working[3]}"
	fi
	eval $LOGFE
}

# takes list of all flags, split them and prints x per line
# args: $1 - cpu flag string
print_cpu_flags_full()
{
	eval $LOGFS
	local cpu_flags_full="$1" a_cpu_flags='' line_starter=''
	local i=0 counter=0 max_length=18 max_length_add=18 flag='' flag_data=''

	# build the flag line array
	for flag in $cpu_flags_full
	do
		a_cpu_flags[$counter]="${a_cpu_flags[$counter]}$flag "
		if [[ $i -ge $max_length ]];then
			(( counter++ ))
			max_length=$(( $max_length + $max_length_add ))
		fi
		((i++))
	done
	# then print it out
	for (( i=0; i < ${#a_cpu_flags[@]};i++ ))
	do
		if [[ $i -eq 0 ]];then
			line_starter="${C1}CPU Flags${C2} "
		else
			line_starter=''
		fi
		flag_data=$( create_print_line " " "$line_starter${a_cpu_flags[$i]}" )
		print_screen_output "$flag_data"
	done
	eval $LOGFE
}

print_gfx_data()
{
	eval $LOGFS
	local gfx_data='' i='' card_one='Card' root_alert='' root_x_string=''
	local screen_resolution="$( get_graphics_res_data )"
	local b_is_mesa='false' display_full_string=''
	# set A_GFX_CARD_DATA
	get_graphics_card_data
	# set A_X_DATA
	get_graphics_x_data
	local x_vendor=${A_X_DATA[0]}
	local x_version=${A_X_DATA[1]}
	# set A_GLX_DATA
	get_graphics_glx_data
	local glx_renderer="${A_GLX_DATA[0]}"
	local glx_version="${A_GLX_DATA[1]}"
	# this can contain a long No case debugging message, so it's being sliced off
	# note: using grep -ioE '(No|Yes)' <<< ${A_GLX_DATA[2]} did not work in Arch, no idea why
	local glx_direct_render=$( gawk '{
		print $1
	}'  <<< "${A_GLX_DATA[2]}" )
	# some basic error handling:
	if [[ -z $screen_resolution ]];then
		screen_resolution='N/A'
	fi

	if [[ $B_X_RUNNING == 'true' && $B_ROOT != 'true' ]];then
		if [[ -z $x_vendor || -z $x_version ]];then
			x_vendor='X-Vendor: N/A'
		fi
		display_full_string="${C1}$x_vendor${C2} $x_version ${C1}Res:${C2} ${screen_resolution} "
	else
		root_x_string=''
		if [[ $B_ROOT == 'true' ]];then
			root_x_string='for root '
		fi
		if [[ $B_X_RUNNING != 'true' ]];then
			root_x_string="${root_x_string}out of X"
		fi
		if [[ -n $x_vendor && -n $x_version ]];then
			display_full_string="${C1}$x_vendor${C2} $x_version ${C1}Res:${C2} ${screen_resolution} ${C1}Gfx Data:${C2} N/A $root_x_string"
		elif [[ $B_X_RUNNING == 'true' && $B_ROOT == 'true' ]];then
			root_alert="${C1}Gfx Data:${C2} N/A for root user"
			display_full_string="${C1}tty res:${C2} ${screen_resolution} $root_alert"
		fi
	fi

	if [[ ${#A_GFX_CARD_DATA[@]} -gt 1 ]];then
		i=1
		while [[ -n ${A_GFX_CARD_DATA[i]} && $i -le 3 ]]
		do
			gfx_data=" ${C1}Card-$(($i+1))${C2} ${A_GFX_CARD_DATA[i]}"
			((i++))
		done
		card_one='Card-1'
	fi
	gfx_data=$( create_print_line "Graphics:" "${C1}$card_one${C2} ${A_GFX_CARD_DATA[0]}${gfx_data} $display_full_string" )
	print_screen_output "$gfx_data"

# 	if [[ -z $glx_renderer || -z $glx_version ]];then
# 		b_is_mesa='true'
# 	fi

	## note: if glx render or version have no content, then mesa is true
	# if [[ $B_X_RUNNING == 'true' ]] && [[ $b_is_mesa != 'true' ]];then
	if [[ $B_X_RUNNING == 'true' && $B_ROOT != 'true' ]];then
		if [[ -z $glx_renderer ]];then
			glx_renderer='N/A'
		fi
		if [[ -z $glx_version ]];then
			glx_version='N/A'
		fi
		if [[ -z $glx_direct_render ]];then
			glx_direct_render='N/A'
		fi
		gfx_data=$( create_print_line " " "${C1}GLX Renderer${C2} ${glx_renderer} ${C1}GLX Version${C2} ${glx_version}${CN}" )
		if [[ $B_HANDLE_CORRUPT_DATA == 'true' || $B_EXTRA_DATA == 'true' ]];then
			gfx_data="$gfx_data ${C1}Direct Rendering${C2} ${glx_direct_render}${CN}"
		fi
		print_screen_output "$gfx_data"
	fi
	eval $LOGFE
}

print_hard_disk_data()
{
	eval $LOGFS
	local hdd_data='' hdd_data_2='' a_hdd_working='' hdd_temp_data='' hdd_string=''
	local dev_data='' size_data='' hdd_model='' usb_data='' hdd_name='' divisor=5

	# load A_HDD_DATA
	get_hdd_data_basic
	## note: if hdd_model is declared prior to use, whatever string you want inserted will
	## be inserted first. In this case, it's desirable to print out (x) before each disk found.
	local a_hdd_data_count=$(( ${#A_HDD_DATA[@]} - 1 ))
	IFS=","
	local a_hdd_basic_working=( ${A_HDD_DATA[$a_hdd_data_count]} )
	IFS="$ORIGINAL_IFS"
	local hdd_capacity=${a_hdd_basic_working[0]}
	local hdd_used=${a_hdd_basic_working[1]}

	if [[ $VERBOSITY_LEVEL -ge 3 || $B_SHOW_DISK == 'true' ]];then
	## note: the output part of this should be in the print hdd data function, not here
		get_hard_drive_data_advanced
		for (( i=0; i < ${#A_HDD_DATA[@]} - 1; i++ ))
		do
			# this adds the (x) numbering in front of each disk found, and creates the full disk string
			IFS=","
			a_hdd_working=( ${A_HDD_DATA[i]} )
			IFS="$ORIGINAL_IFS"
			if [[ $B_SHOW_DISK == 'true' || $VERBOSITY_LEVEL -ge 5 ]];then
				if [[ -n ${a_hdd_working[3]} ]];then
					usb_data="${a_hdd_working[3]} "
				else
					usb_data=''
				fi
				dev_data="/dev/${a_hdd_working[0]} "
				size_data=" ${a_hdd_working[1]}"
				if [[ $B_EXTRA_DATA == 'true' && -n $dev_data ]];then
					hdd_temp_data=$( get_hdd_temp_data "$dev_data" )
					# error handling is done in get data function
					if [[ -n $hdd_temp_data ]];then
						hdd_temp_data=" ${hdd_temp_data}C"
					else
						hdd_temp_data=''
					fi
				fi
				divisor=2 # for modulus line print out, either 2 items for full, or default for short
			fi
			hdd_name="${a_hdd_working[2]}"
			hdd_string="$usb_data$dev_data$hdd_name$size_data$hdd_temp_data"
			hdd_model="${hdd_model}${C1}$(($i+1)):${C2} $hdd_string "
			# printing line one, then new lines according to $divisor setting, and after, if leftovers, print that line.
			case $i in 
				0)
					hdd_data=$( create_print_line "Disks:" "${C1}HDD${C2} ${C1}Total Size:${C2} ${hdd_capacity} (${hdd_used}) ${hdd_model}" )
					print_screen_output "$hdd_data"
					hdd_model=''
					;;
				*)
					# using modulus here, if divisible by $divisor, print line, otherwise skip
					if [[ $(( $i % $divisor )) -eq 0 ]];then
						hdd_data=$( create_print_line " " "${hdd_model}${CN}" )
						print_screen_output "$hdd_data"
						hdd_model=''
					fi
					;;
			esac
		done
		# then print any leftover items
		if [[ -n $hdd_model ]];then
			hdd_data=$( create_print_line " " "${hdd_model}${CN}" )
			print_screen_output "$hdd_data"
		fi
	else
		hdd_data=$( create_print_line "Disks:" "${C1}HDD Total Size:${C2} ${hdd_capacity} (${hdd_used})${CN}" )
		print_screen_output "$hdd_data"
	fi

	eval $LOGFE
}

print_info_data()
{
	eval $LOGFS

	local info_data=''
	local runlvl=''
	local memory="$( get_memory_data )"
	local processes="$(( $( ps aux | wc -l ) - 1 ))"
	local up_time="$( get_uptime )"

	# Some code could look superfluous but BitchX doesn't like lines not ending in a newline. F*&k that bitch!
	# long_last=$( echo -ne "${C1}Processes${C2} ${processes}${CN} | ${C1}Uptime${C2} ${up_time}${CN} | ${C1}Memory${C2} ${MEM}${CN}" )
	info_data=$( create_print_line "Info:" "${C1}Processes${C2} ${processes} ${C1}Uptime${C2} ${up_time} ${C1}Memory${C2} ${memory}${CN}" )

	# this only triggers if no X data is present or if extra data switch is on
	if [[ $B_X_RUNNING != 'true' || $B_EXTRA_DATA == 'true' ]];then
		runlvl="$( get_runlevel_data )"
		if [[ -n $runlvl ]];then
			info_data="${info_data} ${C1}Runlevel${C2} ${runlvl}${CN}"
		fi
	fi

	if [[ $SHOW_IRC -gt 0 ]];then
		info_data="${info_data} ${C1}Client${C2} ${IRC_CLIENT}${IRC_CLIENT_VERSION}${CN}"
	fi
	info_data="${info_data} ${C1}$SCRIPT_NAME${C2} $SCRIPT_VERSION_NUMBER${CN}"

	if [[ $SCHEME -gt 0 ]];then
		info_data="${info_data} ${NORMAL}"
	fi
	print_screen_output "$info_data"
	eval $LOGFE
}

# args: $1 - module name (could be > 1, so loop it ); $2 - audio (optional)
print_module_version()
{
	eval $LOGFS
	local module_versions='' module='' version='' prefix='' modules=$1
	
	# note that sound driver data tends to have upper case, but modules are lower
	if [[ $2 == 'audio' ]];then
		if [[ -z $( grep -E '^snd' <<< $modules ) ]];then
			prefix='snd_' # sound modules start with snd_
		fi
		modules=$( tr '[A-Z]' '[a-z]' <<< $modules )
		modules=$( tr '-' '_' <<< $modules )
		# special intel processing, generally no version info though
		if [[ $modules == 'hda intel' ]];then
			modules='hda_intel'
		elif [[ $modules == 'intel ich' ]];then
			modules='intel8x0'
		fi
	fi

	for module in $modules
	do
		version=$( get_module_version_number "$prefix$module" )
		if [[ -n $version ]];then
			module_versions="$module_versions $version"
		fi
	done

	if [[ -n $module_versions ]];then
		echo " ${C1}v:${C2}$module_versions"
	fi
	eval $LOGFE
}

print_networking_data()
{
	eval $LOGFS
	local i='' card_one='Card-1' network_data='' a_network_working='' port_data='' driver_data=''
	local card_string='' port_plural='' module_version='' pci_bus_id=''
	# set A_NETWORK_DATA
	get_networking_data

	IFS=","
	a_network_working=(${A_NETWORK_DATA[0]})
	IFS="$ORIGINAL_IFS"

	# will never be null because null is handled in get_network_data, but in case we change
	# that leaving this test in place.
	if [[ -n ${A_NETWORK_DATA[@]} ]];then
		if [[ ${#A_NETWORK_DATA[@]} -le 1 ]];then
			card_one='Card'
		fi
		if [[ -n ${a_network_working[1]} && $B_EXTRA_DATA == 'true' ]];then
			module_version=$( print_module_version "${a_network_working[1]}" )
		fi
		if [[ -n ${a_network_working[1]} ]];then
			driver_data=" ${C1}driver${C2} ${a_network_working[1]}$module_version"
		fi
		if [[ -n ${a_network_working[2]} && $B_EXTRA_DATA == 'true' ]];then
			if [[ $( wc -w <<< ${a_network_working[2]} ) -gt 1 ]];then
				port_plural='s'
			fi
			port_data=" ${C1}at port$port_plural${C2} ${a_network_working[2]}"
		fi
		if [[ -n ${a_network_working[4]} && $B_EXTRA_DATA == 'true' ]];then
			pci_bus_id=" ${C1}BusID:${C2} ${a_network_working[4]}"
		fi
		
		card_string=''
		network_data="${C1}$card_one${C2} ${a_network_working[0]}$driver_data$port_data$pci_bus_id"
		network_data=$( create_print_line "Network:" "$network_data" )
		print_screen_output "$network_data"
		i=0 ## loop starts with 1 by auto-increment so it only shows cards > 1
		while [[ -n ${A_NETWORK_DATA[++i]} ]]
		do
			IFS=","
			a_network_working=( ${A_NETWORK_DATA[i]} )
			IFS="$ORIGINAL_IFS"
			port_data=''
			driver_data=''
			port_plural=''
			module_version=''
			pci_bus_id=''
			if [[ -n ${a_network_working[1]} && $B_EXTRA_DATA == 'true' ]];then
				module_version=$( print_module_version "${a_network_working[1]}" )
			fi
			if [[ -n ${a_network_working[1]} ]];then
				driver_data=" ${C1}driver${C2} ${a_network_working[1]}$module_version"
			fi
			if [[ -n ${a_network_working[2]} && $B_EXTRA_DATA == 'true' ]];then
				if [[ $( wc -w <<< ${a_network_working[2]} ) -gt 1 ]];then
					port_plural='s'
				fi
				port_data=" ${C1}at port$port_plural${C2} ${a_network_working[2]}"
			fi
			if [[ -n ${a_network_working[4]} && $B_EXTRA_DATA == 'true' ]];then
				pci_bus_id=" ${C1}BusID:${C2} ${a_network_working[4]}"
			fi
			network_data="${C1}Card-$(( $i + 1 ))${C2} ${a_network_working[0]}$driver_data$port_data$pci_bus_id"
			network_data=$( create_print_line " " "$network_data" )
			print_screen_output "$network_data"
		done
	fi
	if [[ $B_SHOW_IP == 'true' ]];then
		print_networking_ip_data
	fi
	eval $LOGFE
}

print_networking_ip_data()
{
	eval $LOGFS
	local ip=$( get_networking_wan_ip_data )
	local ip_data='' a_interfaces_working='' interfaces='' interfaces_2='' i=''

	# set A_INTERFACES_DATA
	get_networking_local_ip_data
	# first print output for wan ip line. Null is handled in the get function
	ip_data=$( create_print_line " " "${C1}Wan IP:${C2} $ip" )

	# then create the list of local interface/ip
	interfaces=" ${C1}Interface:${C2}"
	i=0 ## loop starts with 1 by auto-increment so it only shows cards > 1
	while [[ -n ${A_INTERFACES_DATA[i]} ]]
	do
		IFS=","
		a_interfaces_working=(${A_INTERFACES_DATA[i]})
		IFS="$ORIGINAL_IFS"
		if [[ $i -lt 3 ]];then
			if [[ -n ${a_interfaces_working[0]} ]];then
				interfaces="$interfaces ${C1}${a_interfaces_working[0]}${C2} ${a_interfaces_working[1]}"
			fi
		else
			if [[ -n ${a_interfaces_working[0]} ]];then
				# space on end here for lining up with line starter
				interfaces_2="$interfaces_2${C1}${a_interfaces_working[0]}${C2} ${a_interfaces_working[1]} "
			fi
		fi
		((i++))
	done
	print_screen_output "$ip_data$interfaces"
	# then wrap it if needed
	if [[ -n $interfaces_2 ]];then
		interfaces_2=$( create_print_line " " "$interfaces_2" )
		print_screen_output "$interfaces_2"
	fi
	eval $LOGFE
}

print_partition_data()
{
	eval $LOGFS
	local a_partition_working='' partition_used='' partition_data=''
	local counter=0 line_max=160  i=0 a_partition_data='' line_starter=''
	local partitionIdClean='' part_dev='' full_dev='' part_label='' full_label=''
	local part_uuid='' full_uuid='' dev_remote='' full_fs=''

	# this handles the different, shorter, irc colors strings embedded in variable data
	if [[ $B_RUNNING_IN_SHELL != 'true' ]];then
		line_max=130
	fi
	# and no color string data at all
	if [[ $SCHEME -eq 0 ]];then
		line_max=75
	fi
	if [[ $B_SHOW_LABELS == 'true' || $B_SHOW_UUIDS == 'true' ]];then
		line_max=20
	fi

	# set A_PARTITION_DATA
	get_partition_data

	for (( i=0; i < ${#A_PARTITION_DATA[@]}; i++ ))
	do
		IFS=","
		a_partition_working=(${A_PARTITION_DATA[i]})
		IFS="$ORIGINAL_IFS"
		full_label=''
		full_uuid=''

		if [[ $B_SHOW_PARTITIONS_FULL == 'true' ]] || [[ ${a_partition_working[4]} == 'main' ]];then
			if [[ -n ${a_partition_working[2]} ]];then
				partition_used=" ${C1}used:${C2} ${a_partition_working[2]} (${a_partition_working[3]})"
			else
				partition_used='' # reset partition used to null
			fi
			if [[ -n ${a_partition_working[5]} ]];then
				full_fs="${a_partition_working[5]}"
			else
				full_fs='N/A' # reset partition used to null
			fi
			full_fs=" ${C1}fs:${C2} $full_fs"

			# don't show user names in output
			if [[ $B_SHOW_LABELS == 'true' || $B_SHOW_UUIDS == 'true' ]];then
				if [[ -n ${a_partition_working[6]} ]];then
					if [[ -z $( grep -E '(^//|:/)' <<< ${a_partition_working[6]} ) ]];then
						part_dev="/dev/${a_partition_working[6]}"
						dev_remote='dev'
					else
						part_dev="${a_partition_working[6]}"
						dev_remote='remote'
					fi
				else
					dev_remote='dev'
					part_dev='N/A'
				fi
				full_dev=" ${C1}$dev_remote:${C2} $part_dev"
				if [[ $B_SHOW_LABELS == 'true' && $dev_remote != 'remote' ]];then
					if [[ -n ${a_partition_working[7]} ]];then
						part_label="${a_partition_working[7]}"
					else
						part_label='N/A'
					fi
					full_label=" ${C1}label:${C2} $part_label"
				fi
				if [[ $B_SHOW_UUIDS == 'true' && $dev_remote != 'remote' ]];then
					if [[ -n ${a_partition_working[8]} ]];then
						part_uuid="${a_partition_working[8]}"
					else
						part_uuid='N/A'
					fi
					full_uuid=" ${C1}uuid:${C2} $part_uuid"
				fi
			fi
			partitionIdClean=$( sed -r 's|/home/(.*)/(.*)|/home/##/\2|' <<< ${a_partition_working[0]} )
			# because these lines can vary widely, using dynamic length handling here
			a_partition_data[$counter]="${a_partition_data[$counter]}${C1}ID:${C2}$partitionIdClean ${C1}size:${C2} ${a_partition_working[1]}$partition_used$full_fs$full_dev$full_label$full_uuid "

			if [[ $( wc -c <<< ${a_partition_data[$counter]} ) -gt $line_max ]];then
				((counter++))
			fi
		fi
	done
	# print out all lines, line starter on first line
	for (( i=0; i < ${#a_partition_data[@]};i++ ))
	do
		if [[ $i -eq 0 ]];then
			line_starter='Partition:'
		else
			line_starter=' '
		fi
		partition_data=$( create_print_line "$line_starter" "${a_partition_data[$i]}" )
		print_screen_output "$partition_data"
	done
	
	eval $LOGFE
}

print_ps_data()
{
	eval $LOGFS
	
	local b_print_first='true' 

	if [[ $B_SHOW_PS_CPU_DATA == 'true' ]];then
		get_ps_data 'cpu'
		print_ps_item 'cpu' "$b_print_first"
		b_print_first='false' 
	fi
	if [[ $B_SHOW_PS_MEM_DATA == 'true' ]];then
		get_ps_data 'mem'
		print_ps_item 'mem' "$b_print_first"
	fi
	
	eval $LOGFE
}

# args: $1 - cpu/mem; $2 true/false
print_ps_item()
{
	eval $LOGFS
	local a_ps_data='' ps_data='' line_starter='' line_start_data='' full_line=''
	local app_name='' app_pid='' app_cpu='' app_mem='' throttled='' app_daemon=''
	local b_print_first=$2 line_counter=0 i=0 count_nu='' extra_data=''
	
	if [[ -n $PS_THROTTLED ]];then
		throttled=" ${C1} - throttled from${C2} $PS_THROTTLED"
	fi
	case $1 in
		cpu)
			line_start_data="${C1}CPU - % used - top ${C2} $PS_COUNT ${C1}active$throttled "
			;;
		mem)
			line_start_data="${C1}Memory - MB / % used - top ${C2} $PS_COUNT ${C1}active$throttled"
			;;
	esac
	
	if [[ $b_print_first == 'true' ]];then
		line_starter='Processes:'
	else
		line_starter=' '
	fi
	
	# appName, appPath, appStarterName, appStarterPath, cpu, mem, pid, vsz, user
	ps_data=$( create_print_line "$line_starter" "$line_start_data" )
	print_screen_output "$ps_data"

	for (( i=0; i < ${#A_PS_DATA[@]}; i++ ))
	do
		IFS=","
		a_ps_data=(${A_PS_DATA[i]})
		IFS="$ORIGINAL_IFS"
		
		# handle the converted app names, with ~..~ means it didn't have a path
		if [[ -n $( grep -E '^~.*~$' <<<  ${a_ps_data[0]} ) ]];then
			app_daemon='daemon:'
		else
			app_daemon='command:'
		fi

		app_name=" ${C1}$app_daemon${C2} ${a_ps_data[0]}"
		if [[ ${a_ps_data[0]} != ${a_ps_data[2]} ]];then
			app_name="$app_name ${C1}(started by:${C2} ${a_ps_data[2]}${C1})${C2}"
		fi
		app_pid=" ${C1}pid:${C2} ${a_ps_data[6]}"
		#  ${C1}user:${C2} ${a_ps_data[8]}
		case $1 in
			cpu)
				app_cpu=" ${C1}cpu:${C2} ${a_ps_data[4]}%"
				if [[ $B_EXTRA_DATA == 'true' ]];then
					extra_data=" ${C1}mem:${C2} ${a_ps_data[7]}MB (${a_ps_data[5]}%)${C2}"
				fi
				;;
			mem)
				app_mem=" ${C1}mem:${C2} ${a_ps_data[7]}MB (${a_ps_data[5]}%)${C2}"
				if [[ $B_EXTRA_DATA == 'true' ]];then
					extra_data=" ${C1}cpu:${C2} ${a_ps_data[4]}%"
				fi
				;;
		esac
		(( line_counter++ ))
		count_nu="${C1}$line_counter -${C2}"
		full_line="$count_nu$app_cpu$app_mem$app_name$app_pid$extra_data"
		ps_data=$( create_print_line " " "$full_line" )
		print_screen_output "$ps_data"
	done
	
	eval $LOGFE
}


# currently only apt using distros support this feature, but over time we can add others
print_repo_data()
{
	eval $LOGFS
	local repo_count=0 repo_line='' file_name='' file_content='' file_name_holder=''
	local repo_full='' b_print_next_line='false' 
	
	get_repo_data
	
	if [[ -n $REPO_DATA ]];then
		# loop through the variable's lines one by one, update counter each iteration
		while read repo_line
		do
			(( repo_count++ ))
			file_name=$( cut -d ':' -f 1 <<< $repo_line )
			file_content=$( cut -d ':' -f 2-6 <<< $repo_line )
			# this will dump unwanted white space line starters. Some irc channels
			# use bots that show page title for urls, so need to break the url by adding 
			# a white space.
			if [[ $B_RUNNING_IN_SHELL != 'true' ]];then
				file_content=$( echo $file_content | sed 's|://|: //|' )
			else
				file_content=$( echo $file_content )
			fi
			# check file name, if different, update the holder for print out
			if [[ $file_name != $file_name_holder ]];then
				if [[ $REPO_FILE_ID != 'pisi repo' ]];then
					repo_full="${C1}Active $REPO_FILE_ID in file:${C2} $file_name"
				else
					repo_full="${C1}$REPO_FILE_ID:${C2} $file_name"
				fi
				file_name_holder=$file_name
				b_print_next_line='true'
			else
				repo_full=$file_content
			fi
			# first line print Repos: 
			if [[ $repo_count -eq 1 ]];then
				repo_full=$( create_print_line "Repos:" "$repo_full" )
			else
				repo_full=$( create_print_line " " "$repo_full" )
			fi
			print_screen_output "$repo_full"
			# this prints the content of the file as well as the file name
			if [[ $b_print_next_line == 'true' ]];then
				repo_full=$( create_print_line " " "$file_content" )
				print_screen_output "$repo_full"
				b_print_next_line='false'
			fi
		done <<< "$REPO_DATA"
	else
		repo_full=$( create_print_line "Repos:" "${C1}Error:${C2} $SCRIPT_NAME does not support this feature for your distro yet." )
		print_screen_output "$repo_full"
	fi
	eval $LOGFE
}

print_sensors_data()
{
	eval $LOGFS
	local mobo_temp='' cpu_temp='' psu_temp='' cpu_fan='' mobo_fan='' ps_fan='' sys_fans='' sys_fans2='' 
	local temp_data='' fan_data='' fan_data2='' b_is_error='false' fan_count=0 gpu_temp=''
	local a_sensors_working=''
	get_sensors_data
	
	IFS=","
	a_sensors_working=( ${A_SENSORS_DATA[0]} )
	IFS="$ORIGINAL_IFS"
	# initial error cases, for missing app or unconfigured sensors. Note that array 0
	# always has at least 3 items, cpu/mobo/psu temp in it. If it's a single item, then
	# it's an error message, not the real data arrays.
	if [[ ${#a_sensors_working[@]} -eq 1 ]];then
		cpu_temp="${C1}Error:${C2} ${A_SENSORS_DATA[0]}"
		b_is_error='true'
	else
		for (( i=0; i < ${#A_SENSORS_DATA[@]}; i++ ))
		do
			IFS=","
			a_sensors_working=( ${A_SENSORS_DATA[i]} )
			IFS="$ORIGINAL_IFS"
			case $i in
				# first the temp data
				0)
					if [[ -n ${a_sensors_working[0]} ]];then
						cpu_temp=${a_sensors_working[0]}
					else
						cpu_temp='N/A'
					fi
					cpu_temp="${C1}System Temperatures: cpu:${C2} $cpu_temp "

					if [[ -n ${a_sensors_working[1]} ]];then
						mobo_temp=${a_sensors_working[1]}
					else
						mobo_temp='N/A'
					fi
					mobo_temp="${C1}mobo:${C2} $mobo_temp "

					if [[ -n ${a_sensors_working[2]} ]];then
						psu_temp="${C1}psu:${C2} ${a_sensors_working[2]} "
					fi
					gpu_temp=$( get_gpu_temp_data )
					# dump the unneeded screen data for single gpu systems 
					if [[ $( wc -w <<< $gpu_temp ) -eq 1 && $B_EXTRA_DATA != 'true' ]];then
						gpu_temp=$( cut -d ':' -f 2 <<< $gpu_temp )
					fi
					if [[ -n $gpu_temp ]];then
						gpu_temp="${C1}gpu:${C2} ${gpu_temp} "
					fi
					;;
				# then the fan data from main fan array
				1)
					for (( j=0; j < ${#a_sensors_working[@]}; j++ ))
					do
						case $j in
							0)
								# we need to make sure it's either cpu fan OR cpu fan and sys fan 1
								if [[ -n ${a_sensors_working[0]} ]];then
									cpu_fan="${a_sensors_working[0]}"
								elif [[ -z ${a_sensors_working[0]} && -n ${a_sensors_working[1]} ]];then
									cpu_fan="${a_sensors_working[1]}"
								else
									cpu_fan='N/A'
								fi
								cpu_fan="${C1}Fan Speeds (in rpm): cpu:${C2} $cpu_fan "
								(( fan_count++ ))
								;;
							1)
								if [[ -n ${a_sensors_working[1]} ]];then
									mobo_fan="${C1}mobo:${C2} ${a_sensors_working[1]} "
									(( fan_count++ ))
								fi
								;;
							2)
								if [[ -n ${a_sensors_working[2]} ]];then
									ps_fan="${C1}psu:${C2} ${a_sensors_working[2]} "
									(( fan_count++ ))
								fi
								;;
							[3-9]|[1-9][0-9])
								if [[ -n ${a_sensors_working[$j]} ]];then
									fan_number=$(( $j - 2 )) # sys fans start on array key 5
									# wrap after fan 6 total
									if [[ $fan_count -lt 7 ]];then
										sys_fans="$sys_fans${C1}sys-$fan_number:${C2} ${a_sensors_working[$j]} "
									else
										sys_fans2="$sys_fans2${C1}sys-$fan_number:${C2} ${a_sensors_working[$j]} "
									fi
									(( fan_count++ ))
								fi
								;;
						esac
					done
					;;
				2)
					for (( j=0; j < ${#a_sensors_working[@]}; j++ ))
					do
						case $j in
							[0-9]|[1-9][0-9])
								if [[ -n ${a_sensors_working[$j]} ]];then
									fan_number=$(( $j + 1 )) # sys fans start on array key 5
									# wrap after fan 6 total
									if [[ $fan_count -lt 7 ]];then
										sys_fans="$sys_fans${C1}fan-$fan_number:${C2} ${a_sensors_working[$j]} "
									else
										sys_fans2="$sys_fans2${C1}fan-$fan_number:${C2} ${a_sensors_working[$j]} "
									fi
									(( fan_count++ ))
								fi
								;;
						esac
					done
					;;
			esac
		done
	fi
	# turning off all output for case where no sensors detected or no sensors output 
	# unless -s used explicitly. So for -F type output won't show unless valid or -! 1 used
	if [[ $b_is_error != 'true' || $B_SHOW_SENSORS == 'true' || $B_TESTING_1 == 'true' ]];then
		temp_data="$cpu_temp$mobo_temp$psu_temp$gpu_temp"
		temp_data=$( create_print_line "Sensors:" "$temp_data" )
		print_screen_output "$temp_data"
		# don't print second or subsequent lines if error data
		fan_data="$cpu_fan$mobo_fan$ps_fan$sys_fans"
		if [[ $b_is_error != 'true' && -n $fan_data ]];then
			fan_data=$( create_print_line " " "$fan_data" )
			print_screen_output "$fan_data"
			# and then second wrapped fan line if needed
			if [[ -n $sys_fans2 ]];then
				fan_data2=$( create_print_line " " "$sys_fans2" )
				print_screen_output "$fan_data2"
			fi
		fi
	fi
	eval $LOGFE
}

print_system_data()
{
	eval $LOGFS
	local system_data='' bits=''
	local host_name=$( hostname )
	local current_kernel=$( uname -rm ) # | gawk '{print $1,$3,$(NF-1)}' )
	local distro="$( get_distro_data )"
		# check for 64 bit first
	if [[ -n $( uname -m | grep -o 'x86_64' ) ]];then
		bits="(64 bit)"
	else
		bits="(32 bit)"
	fi

	if [[ $B_SHOW_HOST == 'true' ]];then
		system_data=$( create_print_line "System:" "${C1}Host${C2} $host_name ${C1}Kernel${C2}" )
	else
		system_data=$( create_print_line "System:" "${C1}Kernel${C2}" )
	fi
	system_data="$system_data $current_kernel $bits ${C1}Distro${C2} $distro"
	print_screen_output "$system_data"
	eval $LOGFE
}

print_unmounted_partition_data()
{
	eval $LOGFS
	local a_unmounted_data='' line_starter='' unmounted_data='' full_fs=''
	local full_dev='' full_size='' full_label='' full_uuid='' full_string=''
	
	if [[ -z ${A_PARTITION_DATA} ]];then
		get_partition_data
	fi
	get_unmounted_partition_data
	
	if [[ ${#A_UNMOUNTED_PARTITION_DATA[@]} -ge 1 ]];then
		for (( i=0; i < ${#A_UNMOUNTED_PARTITION_DATA[@]}; i++ ))
		do
			IFS=","
			a_unmounted_data=(${A_UNMOUNTED_PARTITION_DATA[i]})
			IFS="$ORIGINAL_IFS"
			if [[ -z ${a_unmounted_data[0]} ]];then
				full_dev='N/A'
			else
				full_dev="/dev/${a_unmounted_data[0]}"
			fi
			full_dev="${C1}ID:${C2} $full_dev"
			if [[ -z ${a_unmounted_data[1]} ]];then
				full_size='N/A'
			else
				full_size=${a_unmounted_data[1]}
			fi
			full_size="${C1}size:${C2} $full_size"
			if [[ -z ${a_unmounted_data[2]} ]];then
				full_label='N/A'
			else
				full_label=${a_unmounted_data[2]}
			fi
			full_label="${C1}label:${C2} $full_label"
			if [[ -z ${a_unmounted_data[3]} ]];then
				full_uuid='N/A'
			else
				full_uuid=${a_unmounted_data[3]}
			fi
			full_uuid="${C1}uuid:${C2} $full_uuid"
			if [[ -z ${a_unmounted_data[4]} ]];then
				full_fs=''
			else
				full_fs="${C1}fs:${C2} ${a_unmounted_data[4]}"
			fi
			full_string="$full_dev $full_size $full_label $full_uuid $full_fs"
			if [[ $i -eq 0 ]];then
				line_starter='Unmounted:'
			else
				line_starter=' '
			fi
			unmounted_data=$( create_print_line "$line_starter" "$full_string" )
			print_screen_output "$unmounted_data"
		done
	else
		unmounted_data=$( create_print_line "Unmounted:" "No unmounted partitions detected." )
		print_screen_output "$unmounted_data"
	fi
	
	eval $LOGFE
}

########################################################################
#### SCRIPT EXECUTION
########################################################################

main $@ ## From the End comes the Beginning

## note: this EOF is needed for smxi handling, this is what triggers the full download ok
###**EOF**###